PXC Compact Series Technical Reference Manual

Transcription

1 PXC Compact Series Technical Reference Manual Building Technologies Restricted

2 Copyright Notice Copyright Notice Notice Document information is subject to change without notice by Siemens Industry, Inc. Companies, names, and various data used in examples are fictitious unless otherwise noted. No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, without the express written permission of Siemens Industry, Inc. Warning This equipment generates, uses, and can radiate radio frequency energy. If equipment is not installed and used in accordance with the instructions manual, it may cause interference to radio communications. Equipment has been tested and found to comply within the limits for a Class B digital device pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference. Residential area equipment users are required to take whatever measures necessary to correct the interference at their own expense. Service Statement Control devices are combined to make a system. Each control device is mechanical in nature and all mechanical components must be regularly serviced to optimize their operation. Siemens Industry, Inc. branch offices and authorized distributors offer Technical Support Programs that will ensure continuous, trouble-free system performance. For further information, contact your nearest Siemens Industry representative. Copyright 2018 Siemens Industry, Inc. FCC Regulations The manual for an intentional or unintentional radiator shall caution the user that changes or modifications not expressly approved by the party responsible could void the user s authority to operate the equipment. For a Class B digital device or peripheral, the instructions furnished the user shall include the following or similar statement, placed in a prominent location in the text of the manual: NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/tv technician for help

3 Copyright Notice To the Reader Your feedback is important to us. If you have comments about this manual, please submit them to: Credits APOGEE, APOGEE GO, InfoCenter Administrator, InfoCenter Report Manager, InfoCenter Server, InfoCenter Suite, and Insight are registered trademarks of Siemens Industry, Inc. Desigo and Desigo CC are registered trademarks of Siemens Schweiz AG. Other product or company names mentioned herein may be the trademarks of their respective owners. Printed in the USA. Cyber security disclaimer Siemens provides a portfolio of products, solutions, systems and services that includes security functions that support the secure operation of plants, systems, machines and networks. In the field of Building Technologies, this includes building automation and control, fire safety, security management as well as physical security systems. In order to protect plants, systems, machines and networks against cyber threats, it is necessary to implement and continuously maintain a holistic, state-of-the-art security concept. Siemens portfolio only forms one element of such a concept. You are responsible for preventing unauthorized access to your plants, systems, machines and networks which should only be connected to an enterprise network or the internet if and to the extent such a connection is necessary and only when appropriate security measures (e.g. firewalls and/or network segmentation) are in place. Additionally, Siemens guidance on appropriate security measures should be taken into account. For additional information, please contact your Siemens sales representative or visit Siemens portfolio undergoes continuous development to make it more secure. Siemens strongly recommends that updates are applied as soon as they are available and that the latest versions are used. Use of versions that are no longer supported, and failure to apply the latest updates may increase your exposure to cyber threats. Siemens strongly recommends to comply with security advisories on the latest security threats, patches and other related measures, published, among others, under

4 Table of Contents Cyber security disclaimer... 3 Compact Series Product Overview... 7 Compatibility with the APOGEE Automation System... 7 BACnet Protocol Compatibility... 8 TCP/IP Protocol Compatibility... 8 Required IP Addresses... 8 Device Registration... 8 Address Assignment... 8 System Program... 9 Minimum Firmware Revision Required License Manager Purpose of Licenses Supported Point Types PXC Compact Series, Rev 1 Hardware, Point Types and 24-Point Compact Series Diagram Point Compact Series Product Diagram Hardware Features Vdc External Sensor Power Source Shield Termination Custom Sensor Support Memory Flash Read-Only Memory (Flash ROM) Compressed ROM Auto-Restore and Database Backup to Flash Auto Save File System Operations Random Access Memory (RAM) Compact Series Backup Batteries AA Battery AA Battery Coin Cell Battery Coin Cell Battery Memory Size and Typical Battery Backup Time Compact Series Specifications Sensor Limits Communication Connections HMI and Tool Ports Pin-Out Diagrams for HMI Connectors B/100B Ethernet Port

5 RS-485 Port FLN Support PXC Compact on P PXC Compact on P Virtual AEM Virtual AEM USB Host Port TX-I/O Island Bus HOA (Hand-Off-Auto) Upgrade Kits HOA Specifications Hardware Features Default Mapping Communication Using the HOA Switches PXC Compact on P What is a PXC Compact on P1? P1 Mode Application P1 Mode Operation P1 Mode Enhanced Field Panel Point Team Tips for P1 Mode Backing up and Restoring the PXC Compact Database Loading Applications with WCIS Merging Multiple Applications into One.ISB File Using the P1 COMM Panel Team Point Miscellaneous Referencing Points on the PXC Compact on P Procedures for Advanced Features Adding Unused I/O for PXC Compact on P1 (Optional) Changing the Point Team Descriptor After Database Conversion Defining an L2SL from a PXC Compact on P1 into the Host Field Panel 50 Identifying the Hardware Model Used in an Application Design Making Changes to the Original PXC Compact on P1 Database Program to Allow LPACI Points to Count Over the LAO Maximum Value 53 Real Time Applications in a PXC Compact on P Synchronizing System Time in a PXC Compact on P Default Applications Point Database for Application Point Database for Application PXM10S/T Product Overview and Description Product Features Communication Connections Requirements

6 Application Menus Operator Display Specifications Operator Display Layout Operator Display Menu Tree Login and Logoff Logging In Logging Off Navigation Menu Alarms Application Menu Points (Command and Release) Application Menu Point Monitor Application Menu Login Application Menu Settings Application Menu Unitary Equipment Controller Unitary Equipment Controller Specifications Compact Series Smoke Control Application Requirements Example ALN Configuration for Smoke Control Applications Service Information Electrostatic Discharge Ordering Replacement Parts Replacing the Batteries Reinstalling the Mounting Tabs Troubleshooting Compact Field Panels Analog Input and Analog Output Points BATT LOW LED RUN LED TX and RX LEDs Communication Display Errors Troubleshooting the TX-I/O Island Bus Troubleshooting the LCD Panel Indications Resetting an I/O Module to Factory Settings Replacing a TX-I/O Plug-in Module Replacing a TX-I/O Module Assembly

7 Compact Series Product Overview Compatibility with the APOGEE Automation System Compact Series Product Overview The PXC Compact Series operates on the Automation Level Network (ALN) or the Field Level Network (FLN). When connected to the ALN, the PXC Compact uses a logical point firmware database to communicate directly with PXC Modulars, MBCs, RBCs, MECs, SCUs, and other nodes on the network. When connected to the MS/TP FLN, the PXC Compact operates as a third-party BACnet device. When the PXC-16 or PXC-24 is connected to the P1 FLN, it operates as a P1 device. No license is required when using the PXC Compact as an FLN device. PXC Compact on P1 displays as a TEC with application range The PXC Compact is available with 16, 24, or 36 point terminations. Selected PXC-24 and PXC-16 models provide an extended temperature range for the control of rooftop devices. Optional hot-swappable HOA (Hand/Off/Auto) Modules for the PXC Compact Series enable output points to be manually placed into HAND, ON/OFF, or AUTO control. Support for FLN Devices Selected models in the PXC Compact Series can support P1 or MS/TP FLN devices. Those which support FLN devices may require an additional license. Selected models can be purchased with the license already installed. NOTE: No license is required when the PXC Compact is being polled as an FLN device on the P1 or MS/TP FLN. TX-I/O Island Bus Support The PXC-36 supports the TX-I/O Island Bus, which uses TX-I/O modules to expand the number of point terminations. Selected PXC-36 models require a license to support the TX-I/O Island Bus. For more information on connecting the PXC-36 to the Island Bus, see the TX- I/O Island Bus Technical Reference Manual ( ). Compatibility with the APOGEE Automation System The PXC Compact Series in P2 Mode is fully compatible with and will communicate with all the APOGEE or pre-apogee products in your facility. However, PXC Compact Series in P1 Mode is not designed for use on the FLN of a pre-apogee field panel. CAUTION When working on a network with multiple firmware revisions, always connect to the operator interface at the field panel with the newest firmware revision. Otherwise, you cannot view features in newer firmware revisions, or the field panel may coldstart

8 Compact Series Product Overview Compatibility with the APOGEE Automation System BACnet Protocol Compatibility APOGEE BACnet is compatible with the BACnet/IP protocol. CAUTION When sharing data values from APOGEE P2 (proprietary) field panels to BACnet devices, the Cross-Trunk Service does not support requests originating from BACnet devices to access points (objects) that reside in APOGEE P2 field panels. If you plan to share data values from APOGEE P2 field panels with BACnet devices (field panels), you must do one of the following: Install and enable the Insight BACnet Server Option. Use PPCL in the APOGEE P2 field panels to command values in the BACnet devices through the Insight Cross-Trunk service. APOGEE P2 and BACnet Product Features Order of Implementation The APOGEE field panel firmware supports the BACnet protocol as follows: If both the BACnet and APOGEE protocols have a function, the BACnet function is implemented. If APOGEE provides a function that the BACnet protocol does not support, the APOGEE function is retained. This approach to BACnet implementation retains the APOGEE feature set while providing compatibility with standard BACnet/IP protocol. TCP/IP Protocol Compatibility PXC Compact Series controllers with BACnet/IP or Ethernet TCP/IP (P2) ALN provide the following: 100% compatibility with the TCP/IP protocol suite. Support of Dynamic Host Configuration Protocol (DHCP) and Domain Name Servers (DNS). Support and auto detection of 10Base-T and 100Base-TX Ethernet. Required IP Addresses APOGEE BACnet/IP or Ethernet TCP/IP (P2) ALN uses: One IP address per device (field panel or workstation). One additional shared IP address per ALN for the multicast group (when using multicast optimization). Device Registration Devices register with the DHCP server and Domain Name Server, if either is present. Address Assignment IP addresses are dynamically assigned by the DHCP server

9 Compact Series Product Overview System Program If an address changes or is not recognized, the field panel firmware lets you release the dynamically assigned IP address and then reconnect the field panel to the DHCP server, accepting a new IP address assignment in the process. If there is no DHCP server at the site, you must manually assign static IP addresses as part of the startup system configuration. Physical Addressing Each device on the BACnet/IP or Ethernet TCP/IP (P2) ALN has a hard-wired MAC address, which is printed on the product label. Port Numbers The default TCP/IP port number for APOGEE BACnet/IP or Ethernet TCP/IP (P2) ALN communications is You can change the TCP/IP port number if necessary. NOTE: All devices on the network must use the same TCP/IP port number. The default TCP/IP port number for Virtual AEM communications is You must specify a UDP port number when using multicast optimization. The default UDP port number is 8. Network Bandwidth BACnet/IP or Ethernet TCP/IP (P2) ALN does not add significantly to your network overhead. Burst conditions for this product occur during: Database downloading after coldstart. Database uploading. Trend data uploading. Burst of alarms or COVs. Data Exchange BACnet/IP or Ethernet TCP/IP (P2) ALN sends and receives APOGEE data in TCP/IP packets. BACnet/IP or Ethernet TCP/IP (P2) ALN synchronizes global data between all devices. Each device runs a global data replication engine that communicates with peer devices to: Exchange new and changed global data. Resolve conflicts when data does not match. Device Naming Conventions Field panel DNS node names are limited to 30 characters and cannot contain spaces. Network Security BACnet/IP or Ethernet TCP/IP (P2) ALN uses your intranet security within the firewall and a username/password combination to restrict access outside the firewall. You can use VLAN to improve internal security. System Program The PXC Compact contains a non-volatile system program called firmware, which can be upgraded in the field. The firmware is stored in Flash ROM memory, which keeps it 9 100

10 Compact Series Product Overview System Program virtually immune to all forms of power fluctuations or failure, including battery failure. For more information on Flash ROM memory, see Memory [ 21]. General functionality of the firmware includes: Executing control programs. Communicating between other field panels and the workstation. Monitoring points. Managing point-related information. Keeping track of real time (both clock and calendar time). Executing self-test and error detection in the PXC Compact. Minimum Firmware Revision Required The APOGEE Field Panels Configuration and Sizing Guidelines ( ) outlines the minimum firmware revision required for support of a specific feature with the PXC Compact Series. License Manager The licenses used to activate features are associated with a specific field panel through the ID_STRING. The ID_STRING uniquely identifies a piece of hardware; it is burned into the field panel s EEPROM and read by software and firmware. The ID_STRING is composed of the panel's part number, revision, year and week of manufacture, and serial number. Therefore, a license for one field panel will not work on another field panel. Information for the ID_STRING can be found: Printed on a label adhered to the outside of the field panel, Printed on a label adhered to the outside of the field panel shipping box, or Burned into the field panel s non-volatile memory and read through Commissioning Tool (CT), Insight software, or the field panel HMI. For PXC-36 field panels that include FLN support, a default license named FLNNode36_254 displays in the field panel configuration. CAUTION Licensed FLN support only works if the correct license is loaded on the field panel. An FLN license for PXC-16 and PXC-24 field panels supports 32 FLN devices. For field panels that include island bus support, a default license named TXIOExp_8 displays in the field panel configuration. NOTICE PXC Compact Series models with Island Bus support allow four TX-I/O modules. See the APOGEE Field Panels Configuration and Sizing Guidelines ( ) for more information on applications and functionality that can be activated through License Manager. See the License to enable SNMP Agent on Siemens Modular or Compact hardware with BACnet Firmware Revision (LSM-SNMP) for information on adding licensed applications or functionality

11 Compact Series Product Overview System Program Purpose of Licenses The use of licenses and features allows added flexibility for customers. Because many features add functionality to a field panel s firmware, a single part number can be ordered and installed. Additional functionality can be added at a later date without the need to replace the hardware or perform a firmware flash. Example A PXC-16 or PXC-24 field panel with an FLN Expansion Module is installed on the ALN to serve as a director for FLN devices; it only passes information about FLN devices to other ALN devices. The customer orders product number PXC36-E.A, which does not provide FLN support or TX-I/O island bus support. Two years later, the customer decides to add physical points. By adding the TX-I/O island bus license, the PXC-16 or PXC-24 is converted to product number PXC16.2- EF.A or PXC24.2-EF.A which provides FLN and TX-I/O island bus support. Without replacing the PXC-16 or PXC-24 hardware or firmware, the customer can now install TX-I/O modules and expand the number of physical points

12 Compact Series Product Overview Supported Point Types Supported Point Types The PXC Compact Series provides software-configurable and dedicated points. The point types and their possible configurations are shown in the following tables. Point Type Analog Input 4 Digital Input Analog Output Digital Output Universal Input (UI) Points 1-3 PXC-16 Supported Point Types. Configurable Points Universal Input/Output (U) Points 4-8 Voltage 0 to 10 Vdc Current 4 to 20 ma RTD Pt 1K 1 RTD Ni 1K 2 Thermistor 10K NTC 3 Thermistor 100K NTC 3 Analog Output (AO) Points 9-11 Dedicated Points Digital Input (DI) Points Status (Binary Input) Pulse Accumulator (Counter) Voltage 0 to 10 Vdc Binary/Digital Output Digital Output (DO) Points ) Platinum 1K 375 or 385 alpha. 2) Siemens, Johnson Controls, and DIN Standard Nickel. 3) 10K and 100K Type 2 and 10K Type 3. 4) Sensor supply 24 Vdc, 4.8W Point Type Analog Input 5 Digital Input Universal Input (UI) Points 1-3 PXC-24 Supported Point Types. Configurable Points Universal Input/Output (U) Points 4-12 Super Universal (X) Points Voltage 0 to 10 Vdc Current 4 to 20 ma RTD Pt 1K 1 RTD Ni 1K 2 Thermistor 10K NTC 3 Thermistor 100K NTC 3 Status (Binary Input) Pulse Accumulator (Counter) Analog Output (AO) Points Dedicated Points Digital Output (DO) Points

13 Compact Series Product Overview Supported Point Types Point Type Analog Output Digital Output Universal Input (UI) Points 1-3 PXC-24 Supported Point Types. Configurable Points Universal Input/Output (U) Points 4-12 Super Universal (X) Points Analog Output (AO) Points Voltage 0 to 10 Vdc Current 0 to 20 ma Dedicated Points Digital Output (DO) Points Binary/Digital Output 4 1) Platinum 1K 375 or 385 alpha. 2) Siemens, Johnson Controls, and DIN Standard Nickel. 3) 10K and 100K Type 2 and 10K Type 3. 4) Requires an external relay. 5) Sensor supply 24 Vdc, 4.8W Point Type PXC-36 Supported Point Types. Super Universal (X) Points 1-6 Configurable Points Universal Input/Output (U) Points 7-24 Analog Input 5 Voltage 0 to 10 Vdc Current 4 to 20 ma RTD Pt 1K 1 RTD Ni 1K 2 Thermistor 10K NTC 3 Thermistor 100K NTC 3 Digital Input (DI) Points Digital Input Status (Binary Input) Analog Output Digital Output Pulse Accumulator (Counter) Voltage 0 to 10 Vdc Current 0 to 20 ma Dedicated Points Digital Output (DO) Points Binary/Digital Output 4 1) Platinum 1K 375 or 385 alpha. 2) Siemens, Johnson Controls, and DIN Standard Nickel. 3) 10K and 100K Type 2 and 10K Type 3. 4) Requires an external relay. 5) Sensor supply 24 Vdc, 4.8W

14 Compact Series Product Overview Supported Point Types PXC Compact Series, Rev 1 Hardware, Point Types NOTE: The following tables are for Revision 1 PXC Compact Series hardware. Physical Point Address UI 1-3 U 4 8 AO 1 3 DI 1 2 DO Point PXC Compact Controller Connector Range and Supported Point Types Revision 1 Hardware. Point Type Analog Inputs Digital Inputs Analog Outputs Universal Input (configurable) Universal Input/Output (configurable) Voltage Analog Output (AOV), dedicated Digital Input, dedicated Digital Output, dedicated Voltage Current RTD NTC Thermistor 0 to 10 Vdc 4 to 20 ma PT 1K (375) PT 1K (385) Ni 1K a Status (Binary Supply) Pulse Accumulator (Counter) Voltage 10K b 100K b 0 to 10 Vdc Digital Inputs Binary/ Digital Output a) Landis & GYR Nickel b) Type 2. Physical Point Address UI 1-3 U 4 16 AO 1 3 DO Point PXC Compact Controller Connector Range and Supported Point Types Revision 1 Hardware. Point Type Analog Inputs Digital Inputs Analog Outputs Universal Input (configurable) Universal Input/Output (configurable) Voltage Analog Output (AOV), dedicated Digital Output, dedicated Voltage Current RTD NTC Thermistor 0 to 10 Vdc 4 to 20 ma PT 1K (375) PT 1K (385) Ni 1K a Status (Binary Supply) Pulse Accumulator (Counter) Voltage 10K b 100K b 0 to 10 Vdc Digital Inputs Binary/ Digital Output a) Landis & GYR Nickel b) Type

15 Compact Series Product Overview 16- and 24-Point Compact Series Diagram 16- and 24-Point Compact Series Diagram NOTE: The USB device port is now functional. It requires a computer device driver and standard computer terminal software, available on Standard Apps). PXC-16 and PXC-24 Features, Symbols, and Status LEDs. Terminal Block Connection Label Indicates 1 24V ~ Supply voltage, 24 Vac input. 2 System neutral. 3 Functional earth. 4 through 12 (PXC-16) 4 through 18 (PXC-24) Digital Output relay, Normally Closed (NC), Common (C), Normally Open (NO). A (22 through 24) + RS-485 port. B C 10B/100B Ethernet port. USB Device port. Supports a generic serial interface for an HMI or Tool connection. Does not support firmware flash upgrades. 25, 27, 28 Universal Input (+) (UI1 through UI3). 26, 29 Signal Common. 30, 31, 33, 34, 36 Universal Input/Output (+) (U4 through U8)

16 Compact Series Product Overview 16- and 24-Point Compact Series Diagram PXC-16 and PXC-24 Features, Symbols, and Status LEDs. Terminal Block Connection Label Indicates 37, Vdc external sensor power (+) source. 38, 40 Signal Common. 41, 43, 44, 46 Universal Input/Output (+) PXC-24 only (U9 through U12). 42, 45 Signal Common (PXC-24 only). 47, 49, 50, 52 Super Universal Input/Output (+) PXC-24 only (X13 through X16). 48, 51 Signal Common. 53, 55, 57 Analog Output (+) (PXC-16: AO9 through AO11; PXC-24: AO17 through AO19). 54, 56 - Signal Common. 58, 60 Digital Input (+) PXC-16 only (DI12 through DI13). 59 Signal Common (PXC-16 only). D HMI Human-Machine Interface port (RS N-1 signal, RJ-45 8 pin connector, service only, will not dial out.) Status LEDs RUN LED RUN (green) ON - Normal steady Green, unit is powered and running. May briefly flash while processor is booting. FAULT LED FAULT (red) (for future use) OFF - Error. 24 Vac input is not present. Power is ON, but the application firmware has not booted. Normal Off, not currently implemented. May be Red if processor does not complete boot. LOW BATT LED LOW BATT (red) ON - Error. RAM Battery (AA) is dead, low, missing or shipping tab is not removed. OFF - Normal operation. Ethernet COMM LED RS-485 TX RS-485 RX PXC-16: DO 14 through DO 16; PXC-24: DO 20 through DO 24 COMM (yellow) (BACnet/IP or Ethernet TCP/IP (P2) only) RS-485 TX (yellow) (RS-485 only) RS-485 RX (yellow) (RS-485 only) DO XX ON - Linked to Ethernet hub. OFF - No link to Ethernet hub. Flashing - Transmitting information over the RS-485, RS-485 P2 or BACnet MS/TP ALN or P1 or MS/TP FLN (depending on how the port is defined). OFF or ON solid - No device, no connection, or bad connection. Flashing - Receiving information over the RS-485, RS-485 P2 or BACnet MS/TP ALN or P1 or MS/TP FLN (depending on how the port is defined). OFF or ON solid - No device, no connection, or bad connection. ON - Relay Energized

17 Compact Series Product Overview 36-Point Compact Series Product Diagram 36-Point Compact Series Product Diagram PXC-36 Features, Symbols, and Status LEDs. Terminal Block Connection Label Indicates 1 24V ~ Supply voltage, 24 Vac input. 2 System neutral. 3 Functional earth. 4 through 27 Digital Output relay, Normally Closed (NC), Common (C), Normally Open (NO). A B 10B/100B Ethernet port. USB Device port. Supports a generic serial interface for an HMI or Tool connection. Does not support firmware flash upgrades. 30, 32, 33, 35, 36, 38 Super Universal (+). (X1 through X6) 31, 34, 37 Signal Common. 39, 41, 50, 52, 53, 55, 56, 58, 59, 61, 62, 64, 65, 67, 68, 70, 71, 73 Universal Input/Output (+). (U7 through U24) 40, 51, 54, 57, 60, 63, 66, 69, 72 Signal Common. 42, 44, 46, Vdc external sensor power (+) source

18 Compact Series Product Overview 36-Point Compact Series Product Diagram PXC-36 Features, Symbols, and Status LEDs. Terminal Block Connection Label Indicates 43, 45, 47, 49 Signal Common. 74, 76, 77, 79 Digital Input (+) (DI25 through DI28) 75, 78 Signal Common 82 through 84 CD CS Island Bus Communication 85 through 87 and 88 through 90 + RS-485 port. C USB Host port D HMI Human-Machine Interface port (RS N-1 signal, RJ-45 8 pin connector, service only, will not dial out.) Status LEDs RUN LED RUN (green) ON - Normal steady Green, unit is powered and running. May briefly flash while processor is booting. FAULT LED FAULT (red) (for future use) OFF - Error. 24 Vac input is not present. Power is ON, but the application firmware has not booted. Normal Off, not currently implemented. May be Red if processor does not complete boot. LOW BATT LED LOW BATT (red) ON - Error. RAM Battery (AA) is dead, low, missing or shipping tab is not removed. COMM LED COMM (yellow) (BACnet/IP or Ethernet TCP/IP (P2) only) OFF - Normal operation. ON - Linked to Ethernet hub. OFF - No link to Ethernet hub. RS-485 TX A TX (yellow) Flashing - Transmitting information over RS-485 P1 (FLN 1) or MS/TP FLN. B TX (yellow) Flashing - Transmitting information over, RS-485 P2 or BACnet MS/TP ALN or P1 or MS/TP FLN (depending on how the port is defined).. A TX or B TX OFF or ON solid - No device, no connection, or bad connection. RS-485 RX A RX (yellow) Flashing - Receiving information over RS-485 P1 (FLN 1) or MS/TP FLN. B RX (yellow) A RX or B RX Flashing - Receiving information over, RS-485 P2 or BACnet MS/TP ALN or P1 or MS/TP FLN (depending on how the port is defined). OFF or ON solid - No device, no connection, or bad connection. DO 29 through DO 36 DO XX ON - Relay Energized

19 36-Point Compact Series Product Diagram Hardware Features CAUTION Adjacent point connections on the PXC Compact Series share a Common connection. See the Figure, Common and Sensor Power Connections. NOTE: The common for input and output analog points is floating and is not connected to the common of the 24 Vac input. Figure 1: Compact 16/24 Shared Ground Connections

20 24 Vdc External Sensor Power Source Figure 2: Compact 36 Shared Ground Connections. 24 Vdc External Sensor Power Source The 24 Vdc Sensor Power source on the PXC Compact should only be used to supply power to sensors. No accessories of any kind can be powered by this connector. For powering actuators, use either the 24V ACTUATORS connector on the Service Box or an external power supply. Shield Termination Terminating shield on the enclosure is the preferred method. The "-" termination next to the 24 Vdc sensor power termination may be used as either a ground for the power or as a cable shield connection. "-" is not connected to earth ground

21 Memory Custom Sensor Support In both P2 Mode (ALN device) and P1 Mode (FLN device), the PXC Compact supports three custom sensor inputs for the AI points: Johnson Controls Nickel 1000, DIN Standard Nickel 1000, and Thermistor 10K Type 3. These sensors display as an option under the Sensor type HMI prompt when entering an AI point at the HMI. >Sensor type : - > 1) I ( Current ) > 2) V ( Voltage ) > 3) P ( Pneumatic ) > 4) T ( Thermistor 100K ) > 5) O ( Thermistor 10K ) > 6) S ( Thermistor 10K Type 3 ) > 7) M ( RTD 1K Platinum 375 ) > 8) R ( RTD 1K Platinum 385 ) > 9) N ( RTD 1K Nickel ) > 10) J ( RTD 1K Nickel JCI ) > 11) D ( RTD 1K Nickel DIN ) > 12) L ( L-Type ) > 13) C ( Custom ) Enter option # or <C> for Cancel> 1- For the two RTD sensors, use the following updated Intercept Adjustments table to create the value entered at the > Wire resistance adjustment : prompt. Intercept Adjustments. RTD Type and temperature coefficient 1 Intercept Formula for Fahrenheit 2 3 Intercept Formula for Celsius 2 4 (M) RTD 1K Platinum 375 I - (R ft)/2.117 I - (R m)/ (R) RTD 1K Platinum 375 I - (R ft)/2.171 I - (R m)/ (N) RTD 1K Nickel I - (R ft)/2.459 I - (R m)/4.427 (J) RTD 1K Nickel JCI I - (R ft)/ I - (R m) (D) RTD 1K Nickel DIN I - (R ft)/ I - (R m) ) Intercept Formula uses average temperature coefficient for the sensor connected. 2) Resistance (R) is from the wire specification or the typical wire resistance table. 3) I is for the intercept from the field panel Slope/Intercept table and ft is the wire length in feet. 4) I is for the intercept from the field panel Slope/Intercept table and m is the wire length in meters. Memory The APOGEE firmware (program), its point database, PPCL program, trend data, and other information reside in the field panel memory. Memory consists of two areas: Flash Read-Only Memory (Flash ROM) and Random Access Memory (RAM)

22 Memory Flash Read-Only Memory (Flash ROM) Flash Read-Only Memory (Flash ROM) is the non-volatile, permanent memory of the PXC Compact, which stores the operating system, the APOGEE firmware, and the language files. A limited amount of secondary storage is provided in Electrically Erasable Programmable Read-Only Memory (EEPROM) for the field panel address or name, communication speeds, and other set-up parameters. In the event of a power surge, a power loss, or failure of the battery backup, the Flash ROM and EEPROM contents stay intact. PXC Compact Flash ROM size cannot be upgraded in the field. Compressed ROM The PXC Compact has a large amount of high performance RAM. To allow for future features and to provide high system performance, the APOGEE firmware is stored in ROM in a compressed state; it is de-compressed into RAM on system power-up. As a result, the entire onboard RAM is not available for the point database, the PPCL program, and trend data. Auto-Restore and Database Backup to Flash APOGEE Firmware Revision 2.8.4/3.1 and later supports Auto-Restore and Database Backup to Flash. Database Backup to Flash allows the user to manually save a copy of the database in flash memory of the controller. The field panel may be configured to automatically restore the database from flash memory after a coldstart. When auto-restore is enabled, a coldstart does not result in the same downtime as with earlier revisions of APOGEE Firmware. Because there is no waiting on a full download from the backup system, the database is restored from flash so quickly that there is little to no downtime. However, the accumulated trend data is deleted from memory. Database restoration from flash is disabled by default. When FLN Mode is selected for the PXC Compact or UEC, database restoration from flash is automatically enabled. When P1 Mode is selected for the PXC Compact, database restoration from flash is automatically enabled and 128K of memory is reserved for ISB files. The field panel may be configured to automatically restore the database from flash memory after a coldstart. When auto-restore is enabled, a coldstart does not result in the same downtime as with earlier revisions of APOGEE firmware. Because there is no waiting on a full download from the backup system, the database is restored from flash so quickly that there is little to no downtime. However, the accumulated trend data is deleted from memory. Database restoration from flash is disabled by default. For procedures on using Auto-Restore and Database Backup to Flash, see the APOGEE P2 ALN Field Panel User's Manual ( ) or the APOGEE BACnet ALN Field Panel User's Manual ( )

23 Compact Series Backup Batteries Auto Save This feature allows the database to be backed up automatically whenever database is changed, instead of being an operator selected function. It does not provide any safeguard and or protection against power loss while the process is underway. However, this feature sends messages to HMI that the auto save operation is in progress or finished. The feature may be turned on or off using a prompt similar to the existing Autorestore prompt. See the APOGEE BACnet ALN Field Panel User's Manual ( ) for more information. File System Operations File System Operations provide many features and works on three drives of a field panel. The following is a list of supported features: List Drives list the drives on the field panel where A: is the RAM drive, B: is the USB drive if attached, and IFD: is the internal Flash Drive. Set_drive identifies the drive that you want to perform other functions on. listdirectory lists the files and folders contained on the selected drive. Change_dir changes the current directory to allow you to view the contents of subfolders on the drive. File_ops opens up the file control menu which allows you to copy, rename, delete and move files in the panel. These functions work on the drive that was selected by the Set_drive function. File_ops/Copy_file allows you to copy files within a drive or to another drive. File_ops/Rename_file allows you to rename a file. File_ops/Move_file allows you to move a file within a drive or to another drive. File_ops/Delete_file allows you to delete a file. USB Media Support Support for USB mass storage devices (Memory sticks or USB hard drives). Backup of database, storage for graphics, Web Server upgrades Random Access Memory (RAM) Synchronous Dynamic Random Access Memory (SDRAM) is the working memory of the PXC Compact. When the PXC Compact has booted and is operating normally, the APOGEE firmware, the PPCL control program, the point database, and trend data have been transferred from Flash ROM. Information stored in RAM, such as the point database or PPCL, may be viewed, modified, deleted, activated, or deactivated from an operator terminal by any high-level authorized user. In the event of a power loss, the contents of RAM are kept intact by a backup battery. PXC Compact RAM size cannot be upgraded in the field. The program length, number of database points, and number of trend entries is limited only by available memory. Compact Series Backup Batteries The PXC Compact Series contains one non-rechargeable AA (LR6) battery and one non-rechargeable coin cell (BR2032) battery that serve as a power backup in the event

24 Compact Series Backup Batteries of a power failure. The batteries only discharge during a power loss. They do not recharge. CAUTION Only use a 3.6 Volt lithium battery in PXC Compact models with extended temperature range operation. Only use a 1.5 Volt alkaline battery in standard PXC Compact models. The 3.6 Volt lithium battery is designed to operate at both high and low temperature extremes, and it provides a long service life in an extended temperature environment. The 1.5 Volt alkaline battery is not guaranteed to provide backup protection in models with extended temperature range operation, even if the controller is operating in a room-temperature environment. If a 3.6 Volt lithium battery is used in standard PXC Compact models, the battery quickly discharges and provides much less backup protection than a 1.5 Volt alkaline battery. AA Battery CAUTION Batteries Failure to change DEAD alkaline battery will eventually result in battery leakage, causing permanent damage and loss of building control. Failure to change a DEAD lithium battery will result in loss of trend and database if not backed up, causing loss of data or building control. Establish a preventative maintenance schedule based on expected battery usage and life cycle. The AA battery maintains databases and volatile data, such as Trend, in RAM when power to the controller is off. If reserve power in the AA battery is low, the battery status is reported as LOW or DEAD and the red LOW BATT LED on the field panel is lit. When this occurs, replace the battery; do not wait until it goes dead. Using PPCL and the $BATT point, the PXC Compact can be programmed to signal an alarm printer and an operator terminal with a battery replacement message. For more information, see the APOGEE Powers Process Control Language (PPCL) User's Manual ( ). Using Auto Restore and Database Backup to Flash RAM is cleared if the AA battery is dead, disabled, or missing when power to the field panel is off. In this case, if Auto Restore and Database Backup to Flash have been enabled, the database reloads in RAM when power returns; however, Trend data is lost. If a power failure lasts longer than the protection offered by the battery, and Auto Restore and Database Backup to Flash are not enabled, the information stored in RAM must be either reloaded from an Insight workstation, Datamate Base or Datamate Advanced, or entered again by an operator

25 Compact Series Backup Batteries AA Battery CAUTION Batteries Failure to change DEAD alkaline battery will eventually result in battery leakage, causing permanent damage and loss of building control. Failure to change a DEAD lithium battery will result in loss of trend and database if not backed up, causing loss of data or building control. Establish a preventative maintenance schedule based on expected battery usage and life cycle. The AA battery maintains databases and volatile data, such as Trend, in RAM when power to the controller is off. If reserve power in the AA battery is low, the battery status is reported as LOW or DEAD and the red LOW BATT LED on the field panel is lit. When this occurs, replace the battery; do not wait until it goes dead. Using PPCL and the $BATT point, the PXC Compact can be programmed to signal an alarm printer and an operator terminal with a battery replacement message. Monitoring the State of the AA Battery The resident AI point $BATT monitors the state of the AA battery. Status is reported as ALIVE for a value of 100. Status is reported as DEAD for a value of 0. Access BATT from the HMI or PPCL using one of the following:!field panel <node>:batt for RS-485 P2 or BACnet MS/TP ALN!<Node Name>:BATT for BACnet/IP or Ethernet TCP/IP (P2) ALN *:BATT where wildcard is permitted. The short name $BATT in PPCL. For more information, see the APOGEE Powers Process Control Language (PPCL) User's Manual ( ). Using Auto Restore and Database Backup to Flash RAM is cleared if the AA battery is dead, disabled, or missing when power to the field panel is off. In this case, if Auto Restore and Database Backup to Flash have been enabled, the database reloads in RAM when power returns; however, Trend data is lost. If a power failure lasts longer than the protection offered by the battery, and Auto Restore and Database Backup to Flash are not enabled, the information stored in RAM must be either reloaded from an Insight workstation, Datamate Base or Datamate Advanced, or entered again by an operator. NOTE: The information stored in RAM may also be reloaded using Commissioning Tool (CT). If Auto Restore and Database Backup to Flash have been enabled, the AA battery may be removed from the PXC Compact if there is not a requirement to maintain volatile data, such as Trend, over a power cycle

26 Compact Series Backup Batteries Coin Cell Battery The coin cell battery is present on all PXC-36 Compact Series and on Version 2 or later of PXC-16 and PXC-24. The hardware version is indicated in the Product Number as follows: The number after PXC16 or PXC-24 indicates the hardware version. For example, PXC24.2-PE.A is Version 2. No number after PXC16 or PXC-24 is Version 1 hardware. For example, PXC24- PE.A is Version 1. CAUTION Batteries Failure to change a DEAD lithium coin cell battery will result in loss of current timedate, which may cause loss of data or building control. Establish a preventative maintenance schedule based on expected battery usage and life cycle. The coin cell battery maintains the current time-date in the Real Time Clock (RTC) when power to the field panel is off. There is no physical status on the field panel for a dead coin cell battery. If the coin cell battery is dead or missing when power is off, then RTC time-date is reset as follows: If the field panel resides on an ALN with an Insight workstation, the Insight workstation sets the time-date when the field panel returns to the network. If the field panel resides on an ALN without an Insight workstation, the timedate is synchronized with the network time during the next automatic daily time update. When the PXC Compact is operating in P1 mode, if the coin cell battery is dead or missing when power is off, RTC time-date is reset to the factory default. RTC timedate and must be set manually or by PPCL to ensure time-date based applications operate as expected. For more information on time synchronization, see the APOGEE P2 ALN Field Panel User's Manual ( ) or the APOGEE BACnet ALN Field Panel User's Manual ( ) ( or )

27 Compact Series Backup Batteries Coin Cell Battery The coin cell battery is present on all PXC-36 Compact Series and on Version 2 or later of PXC-16 and PXC-24. The hardware version is indicated in the Product Number as follows: The number after PXC16 or PXC-24 indicates the hardware version. For example, PXC24.2-PE.A is Version 2. No number after PXC16 or PXC-24 is Version 1 hardware. For example, PXC24- PE.A is Version 1. CAUTION Batteries Failure to change a DEAD lithium coin cell battery will result in loss of current timedate, which may cause loss of data or building control. Establish a preventative maintenance schedule based on expected battery usage and life cycle. The coin cell battery maintains the current time-date in the Real Time Clock (RTC) when power to the field panel is off. There is no physical status on the field panel for a dead coin cell battery. If the coin cell battery is dead or missing when power is off, then RTC time-date is reset as follows: If the field panel resides on an ALN with an Insight workstation, the Insight workstation sets the time-date when the field panel returns to the network. If the field panel resides on an ALN without an Insight workstation, the timedate is synchronized with the network time during the next automatic daily time update. When the PXC Compact is operating in P1 mode, if the coin cell battery is dead or missing when power is off, RTC time-date is reset to the factory default. RTC timedate and must be set manually or by PPCL to ensure time-date based applications operate as expected. For more information on time synchronization, see the APOGEE P2 ALN Field Panel User's Manual ( ) or the APOGEE BACnet ALN Field Panel User's Manual ( ) ( or ). Monitoring the State of the Coin Cell Battery Resident AI point BATT2 monitors the state of the RTC oscillator when power is applied to the field panel either during a coldstart or a warmstart. If the oscillator is stopped, BATT2 is set to value 0. If the RTC oscillator is valid, BATT2 is set to value 100. Status is reported as DEAD for a value of 0. Status is reported as OK for a value of 100. NOTE: The value of BATT2 is also set to 100 by a coldstart command. Since the controller is powered and the RTC oscillator does not stop, the value of BATT2 is valid and a time-date reset will not occur

28 Compact Series Specifications Access BATT2 from the HMI or PPCL using one of the following:!field panel <node>:batt2 for RS-485 P2 or BACnet MS/TP ALN!<Node Name>:BATT2 for BACnet/IP or Ethernet TCP/IP (P2) ALN *:BATT2 where wildcard is permitted. In PPCL, BATT2 cannot be automatically accessed using the short name $BATT2; instead, use the full name. That is,!field panel <node>:batt2 for RS-485 P2 or BACnet MS/TP ALN or!<node Name>:BATT2 for BACnet/IP or Ethernet TCP/IP (P2) ALN. Memory Size and Typical Battery Backup Time Memory Size and Typical Battery Backup Time. Compact Model RAM Flash ROM Total Memory Typical Battery Backup RAM and Real Time Clock Data 1 PXC-16 and PXC MB 8 MB 24 MB Non-rooftop models: 180 days (accumulated) Rooftop models: 330 days (accumulated) PXC-16 and PXC-24 F and F32 32 MB 8 MB 40 MB Non-rooftop models (accumulated): 110 days (accumulated) Rooftop models: (accumulated): 200 days (accumulated) PXC MB 16 MB 80 MB 60 days (accumulated) 1) Installing a coin cell battery provides up to 10 years backup power of the Real Time Clock for nonrooftop applications, and 18 months backup power for rooftop applications. These are typical accumulated times while power is off. Compact Series Specifications Dimensions (L W D) PXC-16 and PXC " 5.9" 2.45" (272 mm 150 mm 62 mm) PXC " 5.9" 3.0" (293 mm 150 mm 77 mm) DIN rail (EN TH , steel) 1.38" 0.30" 0.04" (35 mm 7.5 mm 1 mm)

29 Compact Series Specifications Processor, Battery, and Memory Processor and Clock Speed Memory Serial EEPROM Battery backup of Synchronous Dynamic (SD) RAM (field replaceable) Battery backup of Real Time Clock PXC-16 and PXC-24: Freescale MPC852T, 100 MHz PXC-36: Freescale MPC885, 133 MHz PXC-16 and PXC-24: 24 MB (16 MB SDRAM, 8 MB Flash ROM) PXC-16/24 F and F32 : 40 MB (32 MB SDRAM, 8 MB Flash ROM) PXC-36: 80 MB (64 MB SDRAM, 16 MB Flash ROM) NOTE: See the Configuration and Sizing Guidelines document for supported memory size. New PXC models will now support high speed 480 Mbps communication (PXC-36 only). 4 KB Non-rooftop Models AA (LR6) 1.5 Volt Alkaline (non-rechargeable) PXC-16 and PXC-24: 180 days (accumulated) PXC-16 and PXC-24 F and F32: 110 days (accumulated) PXC-36: 60 days (accumulated) Rooftop (Extended Temperature) Models AA (LR6) 3.6 Volt Lithium (non-rechargeable): 90 days (accumulated) 32MB SDRAM Rooftop (lithium): 200 days 16MB SDRAM Rooftop (lithium): 330 days Non-rooftop Models 10 years (32 F to 122 F (0 C to 50 C)) Coin cell (BR2032) 3 Volt lithium Rooftop (Extended Temperature) Models 18 months (-40 F to 158 F (-40 C to 70 C)) Coin cell (BR2032) 3 Volt lithium These are typical accumulated times while power is off. Communication BACnet/IP or Ethernet TCP/IP (P2) Automation Level Network (ALN) or BACnet/IP or Ethernet TCP/IP (P2) Floor Level Network (FLN) BACnet MS/TP Automation Level Network (ALN) RS-485 Automation Level Network (ALN) Human-Machine Interface (HMI) 10Base-T or 100Base-TX compliant 10 Mbps or 100 Mbps (autoswitching) over Ethernet cable, RJ-45 jack, shielded, 328 ft (100 m) max. from the field panel to the nearest active hub, router, or signal repeater. Up to 100 nodes per BACnet/IP or Ethernet TCP/IP (P2) ALN or FLN. 10Base-T Connection Requirements UTP/STP Category 3 or 5 or better cable 100Base-TX Connection Requirements UTP/STP Category 5 or better cable Supports CSMA/CD protocol, compatible with IEEE 802.xx compliant devices. PXC-36 supports Auto-MDIX 9600 bps to Kbps, up to 10 nodes per MS/TP ALN 1200 bps to Kbps over 24-gauge, low capacitance shielded twisted pair cable, 4000 ft (1220 m) 57.6 Kbps or less, 3280 ft (1 km) Kbps. Up to 100 nodes per RS-485 ALN. Three wire, full-duplex, asynchronous serial RS-232 compliant, 1200 bps to Kbps, 8-N- 1, no hardware flow control (Xon/Xoff supported). RJ-45 jack, 50 ft (16 m) max. cable length. Supports dial-in modem. Factory-set HMI Communication Speed PXC-16 and PXC-24: 9600 bps PXC-36: Kbps

30 Compact Series Specifications Communication USB Device port (for non-smoke control applications only) USB 1.1 (12 Mbps) and 2.0 (480 Mbps), Type B female connector. Self-powered, does not use or supply USB power. Prior to June 2013 USB Host port (for ancillary smoke control applications only). Prior to June 2013 USB 1.0 (1.5 Mbps) and 1.1 (12 Mbps). NOTE: See the Configuration and Sizing Guidelines documentation for supported speeds per controller model. USB 1.0 (1.5 Mbps), 1.1 (12 Mbps), and 2.0 (480 Mbps), Type A female connector. USB unit loads (5V, 500 ma). USB 1.0 (1.5 Mbps) and 1.1 (12 Mbps), Type A female connector. NOTE: See the Configuration and Sizing Guidelines documentation for supported speeds per controller model.. FLN Support available on selected models, license may be required RS-485 P1 Field Level Network (FLN) BACnet MS/TP Field Level Network (FLN) 4800 bps to 38.4 Kbps over 24-gauge, low capacitance shielded twisted pair cable, 4000 ft (1220 m) 38.4 Kbps. PXC-16 and PXC-24: Up to 32 FLN devices supported. PXC-36: For full-load FLN devices, up to 32 devices per FLN port. For 1/8-load FLN devices, up to 96 devices per field panel bps to Kbps PXC-16 and PXC-24: Up to 32 FLN devices supported. PXC-36: For full-load FLN devices, up to 32 devices per FLN port. For 1/8-load FLN devices, up to 96 devices per field panel. Electrical Power Requirements Power Consumption (Maximum) 24 Vac ±20% 50/60 Hz PXC-16: Vac PXC-24: Vac PXC-36: Vac A/D Resolution (analog in) D/A Resolution (analog out) AC Power and Digital Outputs 16 bits 10 bits NEC Class 1 Power Limited Communication and all other I/O NEC Class 2 Digital Input Dedicated Points PXC-16: Points PXC-36: Points Contact Closure Sensing Dry Contact/Potential Free inputs only Does not support counter inputs Open Circuit Voltage: 24 Vdc Short Circuit Current: 10 ma Configurable Points PXC-16: Points 1-8 PXC-24: Points 1-16 PXC-36: Points 1-24 Contact Closure Sensing Dry Contact/Potential Free inputs only Digital Input (10 ms settling time) Supports counter inputs up to 20 Hz, minimum pulse duration 20 ms (open or closed)

31 Compact Series Specifications Electrical Digital Output Analog Output Analog Output Dedicated Points PXC-16: Points PXC-24: Points PXC-36: Points Class 1 Relay Form-C (NO and NC contacts) 125 Vac, 4A 250 Vac, 2A Dedicated Points PXC-16: Points 9-11 PXC-24: Points to 10 1 ma max. Resolution: 11 mv Initial Accuracy: ±2% of full range (32 F to 122 F (0 C to 50 C) ambient) Configurable Points using an external relay PXC-24: Points PXC-36: Points to 24 Vdc, 22 ma max. Configurable Points, 0 to 10 Vdc PXC-16: Points 4-8 PXC-24: Points 4-16 PXC-36: Points to 10 1 ma max. Resolution: 11 mv Initial Accuracy: ±2% of full range (32 F to 122 F (0 C to 50 C) ambient) Configurable Points, 0 to 20 ma PXC-24: Points PXC-36: Points to Ω max. Resolution: 22 µa Initial Accuracy: ±2% of full range (32 F to 122 F (0 C to 50 C) ambient) Analog Input Configurable Points PXC-16: Points 1-8 PXC-24: Points 1-16 PXC-36: Points 1-24 Voltage (0-10 Vdc) Resolution: 2.2 mv Current (4-20 ma) Resolution: 4.4 µa 1K Ni 32 F (Siemens, JCI, DIN Ni 1K) Resolution: 0.05 C 1K Pt RTD (375 or F Resolution: 0.08 C (375), 0.13 C (385) 10K NTC Type 2 or Type 3 Thermistor Resolution: 0.02 C to 0.10 C 100K NTC Type 2 Thermistor Resolution: 0.14 C to 0.02 C

32 Compact Series Specifications Operating Environment Ambient operating environment Ambient operating temperature Ambient operating temperature with rooftop (extended temperature) option Relative Humidity Shipping and storage environment Mounting Surface Vibration Operate in a dry location, which is protected from exposure to salt spray or other corrosive elements. Exposure to flammable or explosive vapors must be prevented. 32 F to 122 F (0 C to 50 C) -40 F to 158 F (-40 C to 70 C) PXC-16 and PXC-24: 5 to 95% rh non-condensing PXC-36: 5 to 95% rh non-condensing PXC-16 and PXC-24: -40 F to 185 F (-40 C to 85 C) PXC-36: -13 F to 158 F (-25 C to 70 C) PXC-16 and PXC-24: Direct equipment mount, building wall, or structural member PXC-36: Building wall or a secure structure CE Compliance Must be installed inside a metal enclosure rated at IP20 minimum Smoke Control Applications Requires installation inside a PX series enclosure Outdoor Applications Requires installation inside a NEMA-4 rated enclosure, or a similarly-protected environment Compliance to IEC 60721, Class 2M2 and 3M2 Protection to EN60529 IP 20 Agency Listings UL Agency Compliance OSHPD Seismic Certification BTL UL864 UUKL Smoke Control Equipment (except UEC and rooftop models) UL864 UUKL7 Smoke Control Equipment (except UEC and rooftop models) CAN/ULC-S527-M8 (except rooftop models) UL916 PAZX (all models) UL916 PAZX7 (all models) FCC Compliance CFR47 Part 15, Subpart B, Class B Australian EMC Framework European EMC Directive (CE) European Low Voltage Directive (LVD) RoHS Compliant Product meets OSHPD Special Seismic Preapproval certification (OSH ) under California Building Code 2010 (CBC2010) and International Building Code 2009 (IBC2009) when installed within the following Siemens enclosure part numbers: PXA-ENC18, PXA-ENC19, or PXA-ENC34. BACnet Testing Laboratories (BTL) Certified, Firmware Revision 3.0 and later

33 Communication Connections Electrical Disturbance Testing Dips and Interrupts per EN Electrical Fast Transients (EFT) per EN kv signal, 2 kv AC power Electrical Surge Immunity per EN AC power: 2 kv common mode, 1 kv differential mode Electrostatic Discharge (ESD) RF Conducted Immunity RF Radiated Immunity PXC-16 and PXC-24: per EN , 6 kv contact, 8 kv air discharge PXC-36: per EN , 4 kv contact, 8 kv air discharge per EN 10V per EN 10V/m Sensor Limits Sensor Type Signal Range Fail Low Return Low Fail High Return High Voltage Input 0 to 11 Vdc -1.0 Vdc -0.5 Vdc Vdc Vdc Current Input 4 to 20 ma 3.68 ma 3.92 ma 21.5 ma 21.0 ma 10KΩ Thermistor 100KΩ Thermistor Pt 1KΩ RTD (TC 375) Pt 1KΩ RTD (TC 385) Ni 1KΩ RTD 1000 Ω Nickel DIN Standard -58 F to +302 F (-50 C to +150 C) -58 F to +302 F (-50 C to +150 C) -40 F to +248 F (-40 C to +120 C) -58 F to +752 F (-50 C to +400 C) -58 F to +302 F (-50 C to +150 C) -58 F to +302 F (-50 C to +150 C) -65 F -60 F +320 F +311 F -65 F -60 F +320 F +311 F -55 F -60 F +266 F +257 F -75 F -57 F +770 F +761 F -65 F -60 F +320 F +311 F -65 F -60 F +320 F +311 F JCI Nickel 1000K -40 F to 180 F (-40 C to 82 C) -55 F -50 F +240 F +220 F 10K Termistor Type 3-58 F to +302 F (-50 C to +150 C) -65 F -60 F +320 F +311 F Communication Connections The PXC Compact Series provides the following communication connections: HMI and Tool ports 10B/100B Ethernet port RS-485 port USB Host Port TX-I/O Island Bus (PXC-36 only) PXC Compact hardware that contains both a 10B/100B Ethernet port and an RS-485 port can be configured through the HMI to reside on any of the following: BACnet/IP or Ethernet TCP/IP (P2) ALN RS-485 P2 or BACnet MS/TP ALN

34 Communication Connections NOTE: Changing the ALN type coldstarts the field panel. NOTE: In BACnet/IP or Ethernet TCP/IP (P2) ALN mode, RS-485 parameters are displayed and may be entered as a selection. However, when in RS-485 ALN mode, BACnet/IP or Ethernet TCP/IP (P2) ALN parameters are not an available selection. HMI and Tool Ports The HMI port provides a connection to a laptop computer for local operation and engineering. The USB Device port supports a generic serial interface for an HMI or Tool connection. Human-Machine Interface (HMI)/Tool Port The Human-Machine Interface (HMI)/Tool port provides RS-232 compliant communications through a quick-connect RJ-45 jack. The HMI port supports the following functionality: Connecting a machine interface device, such as an operator terminal or a textbased operator terminal, to the PXC Compact. Executing firmware flash upgrades bps to Kbps communication is supported. NOTE: The communication speed of the port must match the communication speed of the device connected to it. USB Device Port The USB Device port supports a generic serial interface for an HMI or Tool device. The USB Device port does not support firmware flash upgrades. A driver must be loaded on the PC in order to communicate with the USB Device port. The driver is located in StdApps\Apogee\Firmware\USB Drivers

35 Communication Connections Pin-Out Diagrams for HMI Connectors The HMI connector supports either a RJ-12 (6-pin) jack or a RJ-45 (8-pin) jack. CAUTION Do not use RJ-11 plugs without voids at pins 1 and 8. RJ-11 plugs without voids will permanently damage the outer pins of the HMI port, and the HMI port will no longer be able to power HMI terminals or connect to user interfaces. Replacement plugs with voids are available and may be installed using an RJ-45 (Ethernet) crimp tool. NOTE: RJ-11 HMI accessories can be connected to the middle six pins of the HMI RJ-45 port. Figure 3: RJ-11 Plug with Voids at Pins 1 and 8. Figure 4: P/N Standard RJ-11 (6-pin) Tool Socket for RS-232 Devices. Pin Description Pin Description 1 Not connected 4 Not connected 2 Ground 5 RxD 3 24 Vdc 6 TxD

36 Communication Connections Standard RJ-45 (8-pin) Tool Socket for RS-232 Devices. Pin Description Pin Description 1 Not connected 5 Not connected 2 Not connected 6 RxD 3 Ground 7 TxD 4 24 Vdc 8 Not connected 10B/100B Ethernet Port The 10B/100B Ethernet port provides a path for commands and information transmitted between field panels inside a firewall. This port provides both full- and halfduplex 10Base-T or 100Base-TX compliant communications over a BACnet/IP or Ethernet TCP/IP (P2) Automation Level Network (ALN). The highest possible communication speed is automatically detected and selected. RS-485 Port The RS-485 port provides a path for commands and information transmitted between field panels. This port provides communications over a RS-485 P2 or BACnet MS/TP Automation Level Network (ALN) or P1 or MS/TP Field Level Network (FLN). The communication speed is set during startup. The RS-485 port provides half-duplex, asynchronous serial RS-485 communications over shielded twisted pair cable. The RS-485 connector is labeled + to indicate the positive and negative connections; is a reference pin. The PXC-36 provides two RS-485 ports, which are labeled A and B. All PXC-36 models and the PXC-16 and PXC-24 "F" models support P1 or MS/TP FLN devices on the RS-485 port. BACnet MS/TP routed FLN is supported for Programmable TECs (PTECs), Unitary Equipment Controllers (UECs), and third-party BACnet devices. FIN Builder supports MS/TP routed FLNs and IP FLNs. PPCL and Point Editing are currently not available on routed FLNs. When the PXC Compact Series is operating in P1 Mode (PXC-16 and PXC-24 only), the RS-485 port connects the PXC Compact to a P1 FLN where it emulates a TEC. When communicating on an RS-485 ALN, the Virtual AEM may be used to communicate with a P2 Ethernet network

37 Communication Connections PXC-36 RS-485 A and B Ports The following table outlines the configuration options for the PXC-36 RS-485 A and B ports. ALN Protocol RS-485 A Port Options (FLN 1) RS-485 B Port Options (FLN 2) BACnet/IP MS/TP FLN Not available P1 FLN P1 FLN 1 BACnet MS/TP P1 FLN or MS/TP FLN Configured for MS/TP ALN Ethernet TCP/IP P1 FLN P1 FLN 1 RS-485 P1 FLN Configured for P2 ALN 1) When two FLN ports are available, both FLN protocols cannot be used on the same field panel. FLN Support All PXC-36 models and PXC-16 and PXC-24 "F" models provide a hardware connection for Field Level Network (FLN) devices, including: Siemens Industry FLN. Wireless P1 FLN. An additional license is required to enable some of these FLN connections. Siemens Industry FLN The Siemens Industry Field Level Network (FLN) can consist of devices that communicate over an RS-485 connection using either MS/TP or Protocol 1 (P1). BACnet/IP ALN networks support application-specific control devices that communicate using MS/TP or P1. Ethernet TCP/IP and RS-485 ALN networks only support application-specific control devices that communicate using P1. ALN Protocol BACnet/IP FLN Protocol Supported MS/TP or P1 (RS-485) Firmware Revision Number of FLN Devices Drop Number Range PXC-16, and PXC-24: 3.1 and later PXC-36: 3.2 and later PXC-16 and PXC-24: Up to 32 FLN devices. PXC-36: Up to 96 devices per field panel. 1 0 to 254 Ethernet TCP/IP or RS-485 P1 (RS-485) and later PXC-16 and PXC-24: Up to 32 FLN devices. PXC-36: Up to 96 devices per field panel. 1 0 to and earlier (PXC-16 and PXC-24 only) Up to 32 FLN devices. 0 to 31 if networked 0 to 99 if stand-alone 1) The devices may be grouped in any combination on the FLN ports as long as the total number of FLN devices on the field panel does not exceed 96. Wireless P1 FLN Wireless P1 FLN replaces the traditional FLN cabling with wireless communication links that form a wireless mesh network. The Wireless FLN is enabled through the PXC Compact HMI

38 Communication Connections NOTE: A P1 FLN license must be installed in order to use Wireless FLN. NOTE: The PXC Compact on P1 is not supported on the Wireless FLN. The following additional hardware is required to implement the Wireless P1 FLN with the PXC Compact Series: Field Level Network Transceiver (FLNX) Field Panel Transceiver (FPX) See the section Minimum Firmware Revision Required [ 10] for information on the firmware revision required to implement Wireless P1 FLN. PXC Compact on P1 The PXC-16 and the PXC-24 may be configured to reside on the P1 Field Level Network (FLN). When configured for the FLN, the PXC Compact functions as a programmable FLN device, which accepts custom applications. PXC Compact on P1 The PXC-16 and the PXC-24 may be configured to reside on the P1 Field Level Network (FLN). When configured for the FLN, the PXC Compact functions as a programmable FLN device, which accepts custom applications. See the section Minimum Firmware Revision Required for information on the firmware revision required to implement operation on the P1 FLN. Virtual AEM Without additional hardware, the Virtual AEM connects an RS-485 APOGEE Automation Level Network (ALN) or individual RS-485 field panels to a P2 Ethernet network. An additional license is required. Virtual AEM The Virtual AEM is fully configurable from the HMI. Configuration is the same as for hardware AEM. Even though hardware is not connected to the HMI port, the settings for the HMI/Modem are used to select Alarm Printing/Report Printing, BLN Descriptor, and BLN NAME. The Alarm Printing and Report Printing settings have no effect on AEM operations (Virtual or hardware). Baud rate settings have no effect on the data transmission

39 HOA (Hand-Off-Auto) Upgrade Kits USB Host Port The USB host port supports a USB printer and connection to a modem through a USBto-RS-232 adapter. A USB hub may be used to support both a printer and modem on the USB host port. On a BACnet/IP ALN, the USB Host port provides support for service modems and line printers. On an Ethernet TCP/IP or RS-485 ALN, the USB Host port provides support for dial-up or service modems and line printers. TX-I/O Island Bus The PXC-36 offers the flexibility of expanding the total point count through a selfforming island bus. With the addition of TX-I/O modules and a TX-I/O Power Supply, up to 32 points (or four TX-I/O modules) can be supported. An additional license may be required to enable the Island Bus. HOA (Hand-Off-Auto) Upgrade Kits HOA Upgrade Kits are available for PXC Compact Series field panels. HOA Upgrade Kits are not compatible with Unitary Equipment Controllers (UEC 16 or UEC 24). The upgrade kits replace PXC Compact covers with new covers equipped with manual override switches and LEDs for visual feedback at the field panel. Users can override the default switch assignment or customize the switches to their desired configuration. The HOA module can be used to override outputs and monitor inputs. The HOA mapping and definition of a logical point in the database can be done in any order. The HOA is hot-swappable. The module can be installed without powering down the controller and interrupting facility operations. The HOA module can also be remote mounted on the inside or outside of an enclosure door, using an optional accessory sold separately. The firmware provides a default HOA switch assignment based on the type of the host field panel. There are new menus available that allow for the identification of what HOA module is connected and communicating, along with the ability to view and customize the HOA switch mapping

40 HOA (Hand-Off-Auto) Upgrade Kits HOA Specifications Electrical Power Consumption Baud rate Dimensions (L x W x D) Weight 8 Switch 16 Switch Operating Environment Ambient Operating Temperature 5 V/60 ma (from host controller) in. 1.8 in in. (14.4 cm 4.6 cm 1.7 cm) 0.12 lb 0.14 lb 23 F to 122 F (-5 C to 50 C) Ambient Operating Temperature for rooftop (extended temperature model) -40 F to 158 F (-40 C to 70 C) Shipping and Storage Agency Listings UL Listing cul Listed FCC Compliance WEEE RoHS -13 F to 167 F(-25 C to 70 C) UL864 UUKL (except rooftop model) UL864 UUKL7 (except rooftop model) CAN/ULC-S527-M8 (except rooftop model) UL 916 PAZX (all models) Canadian Standards C22.2 No. 205-M1983, PAZX7 47 CFR Part 15 Hardware Features HOA switches enable points to be manually placed into HAND, ON/OFF, or AUTO control. Analog outputs can also be placed into AUTO and ten manual control positions. Serial communication is made by either direct connect or through the use of a serial HMI cable. Default Mapping For each type of PXC Compact (16, 24 and 36) that supports HOA and each HOA unit (8, 16 rooftop or 16 non-rooftop UL 864), there is a default mapping between each button and physical point. The default mapping provides Plug-and-Play functionality. Upon connection of the HOA Upgrade Kit to the host field panel, the HOA device is recognized and its switches are automatically assigned to the controllers fixed digital output and fixed analog output points. The default mapping is also used to allow the HOA board to command physical outputs before any logical points have been defined

41 HOA (Hand-Off-Auto) Upgrade Kits If a logical point is defined using a physical address that is mapped to an HOA switch by default the logical point value will correspond to the current Hand and I/O status of the HOA switch. The HOA mapping and definition of a logical point in the database can be done in any order. Default Mapping for HOA (8 button) PXC Compact Switch Number Point Number PXC DOs 14,15, AOs 9,10,11 7 and 8 Unused 1) PXC DOs , 7, 8 AOs 17,18,19 PXC DOs ) Available for custom mapping. Default Mapping for HOA (16 button) PXC Compact Switch Number Point Number PXC DOs 14,15, AOs 9,10, Unused 1) PXC DOs , 7, 8 AOs 17,18, Unused 1) PXC DOs Unused 1) 1) Available for custom mapping. Communication When serial connection is made between the host field panel and the HOA module, communication is established. This initial communication stream consists of the HOA module providing the host field panel with a unique identifier that provides the information about the device and its switch capabilities. The Host field panel then maps each available HOA switch so that is can provide manual override control of the onboard DOs and AOs. The HOA mapping is retained in the database upload. After a warmstart, the field panel retains the HOA configuration. NOTE: The HOA must be connected to a field panel with Firmware Revision 2.8.5/3.2 or later in order to backup the HOA database

42 HOA (Hand-Off-Auto) Upgrade Kits Using the HOA Switches LED and Override Status Placing Device into Override To manually override the present value of an analog or digital output on the PXC Compact, you must engage the appropriate switch assigned to the desired equipment to be controlled. Pressing the center of the switch enables the Override mode and energizes the Yellow Override status LED. Pressing the center of the switch disables the Override and de-energizes the Yellow Override status LED. Analog Output Override a second time, Once a switch assigned to an analog output is placed into manual override, pressing the or switch will increase or decrease the value of the assigned point in 10 incremental steps. Based on the present value of the intensity of the Green I/O status LED (10 intervals up and down), the Yellow Override status LED will flash momentarily for any change in value. The Green I/O status LED indicates the current value of physical points. The intensity of the Green I/O status LED will increase or decrease incrementally as the value changes. Manual Control Settings for Analog Outputs Switch Position % Output (LED Intensity) Voltage Mode Output [V] Current Mode Output [ma] 0 0% % % % % % %

43 HOA (Hand-Off-Auto) Upgrade Kits Manual Control Settings for Analog Outputs 7 70% % % % Digital Output Override Pressing the ON at 100%. Pressing the OFF at 0%. switch causes the output to turn ON and the Green I/O status LED is switch causes the output to turn OFF and the Green I/O status LED is The Yellow Override status LED will flash momentarily for any change in value. Analog Input LED Feedback Pressing the HOA switch has no effect on the point value or override status. Pressing the HOA switch causes the Yellow Override status LED to flash momentarily to indicate contact has been made. The Green I/O status LED on the HOA module contains the intensity that best represents the value of the analog input point. The intensity of the Green I/O status LED is determined by the message that the PXC Compact firmware sends to the HOA about the value of the LAI. For example, if the value is 12.5 ma on a point that can go from 4 to 20 ma, then the Green I/O status LED will be as bright as 50% of its intensity. Digital Input LED Feedback Pressing the HOA switch has no effect on the point value or override status. Pressing the HOA switch causes the override status Yellow Override status LED to flash momentarily to indicate contact has been made. The Green I/O status LED on the HOA module is either ON or OFF depending on the value of the Digital Input point. The intensity of the Green I/O status LED is determined by the message that the PXC Compact firmware sends to the HOA about the value of the LDI. For example, if the value is ON, the Green I/O status LED will be as bright as 100% of its intensity; otherwise, it is 0%. Pulsed Points LED Feedback Pressing the HOA switch has no effect on either LED. The Yellow Override status LED status light on the HOA pulses ON/OFF depending on the signal of the pulsed input point. The intensity of the Green I/O status LED is determined by the message that the PXC Compact firmware sends to the HOA about the value of the pulsed input point. For example, if the value is ON, the Green I/O status LED will be as bright as 100% of its intensity; otherwise, it is 0%. Inverted Inputs If an AI or DI in inverted, the Green I/O status LED corresponds to the status of the physical point. The logical point displays the opposite. For example, if the physical point is ON the Green I/O status LED will also be ON and the logical point will be OFF

44 PXC Compact on P1 PXC Compact on P1 PXC Compact on P1 is used for controlling air handlers or migration of a UC (Unitary Controller).The P1 Mode Application allows the PXC Compact to function as an FLN device (emulate a TEC) on an APOGEE P1 FLN, to receive and process P1 FLN request messages from field panels, Insight workstations, or Commissioning Tool (CT), and to respond with P1 messages. This feature also allows the PXC Compact on P1 to receive and process P1 request messages from an APOGEE tool, such as WCIS, connected to the HMI port. See the section Minimum Firmware Revision Required [ 10] for information on the firmware revision required to implement PXC Compact operation on P1 FLN. What is a PXC Compact on P1? The PXC Compact on P1 uses standard PXC-16 or PXC-24 hardware, but Firmware Revision or later allows the PXC Compact to reside on the P1 FLN and communicate with an ALN (host) field panel. This feature is enabled when P1 is selected as the ALN in the HMI prompts. The PXC Compact on P1 functions like a stand-alone ALN field panel, meaning it does not communicate with any other field panels on the ALN, and so it cannot send or receive data directly. The PXC Compact on P1 appears to the host field panel on the FLN as a TEC and its points appear as application subpoints. The database structure of the PXC Compact on P1 is different from that of a standard ALN controller since it consists of three parts, which must remain synchronized. A standard P2 database An Integrated Systems Binary (ISB) file A P1 point team database Table 1: Database Structure of the PXC Compact on P1. Database type Standard P2 Database (stand-alone) Integrated Systems Binary (ISB) File P1 Point Team Database Database Transfer Method MMI Database Transfer through the HMI port FLT through the HMI port P1 FLN through the FLN port Purpose of Database Points Program (PPCL) P2 to P1 Cross Reference Table Point Team Initial Values Trend Default Values Scheduler, and so on COV Limits on FLN, and so on Standard P2 Database Although it is operating on the P1 FLN, the PXC Compact still requires a P2 database. The standard P2 database for the application is created in CT either by converting a UC database or by building a new PXC Compact database in the proper structure. The P2 database is loaded into the PXC Compact on P1 through the HMI port using MMI Database Transfer. To keep the P2 point names unique in CT, the application number is added to the beginning of all corresponding point names. This application number is not used in the P1 database since subpoint names are always unique

45 PXC Compact on P1 Integrated Systems Binary (ISB) File An Integrated Systems Binary (ISB) file is created in CT using the Fast Forward Conversion Tool for migration or the P2/P1 Application Converter for new jobs. The ISB file is loaded into the PXC Compact on P1 through the HMI port using Firmware Loading Tool (FLT). The purpose of this file is to cross reference the P2 database points to associated P1 database points in the Application point team. P1 Point Team Database A P1 point team database is automatically created in the PXC Compact on P1 once the ISB file and P2 database are loaded into the controller in P1 mode. The point team is required in order to make the controller s point information available to the host field panel over the P1 FLN. Point values and status are passed between the P1 database and P2 database using the cross reference table in the ISB file. The P1 database contains the default values, Initial values, COV limits, etc. associated with the application subpoints. This point team is automatically uploaded by the PXC Compact on P1 to the host field panel and Insight for reference. P1 Mode Application The PXC Compact on P1 Mode Application supports the following features: The P1 Mode Application number range is 3000 to Numbers 3900 to 3999 are reserved for Home Office use. Numbers 3916 and 3924 are reserved for the default slave mode applications. P2/P1 Application converter (in Commissioning Tool (CT)) creates an ISB file, which is the P1 representation of the P2 database. P1 Mode Applications are stored in the.isb file. The.ISB file is loaded into the PXC Compact on P1 flash memory using CT Firmware Loading Tool (FLT) P1 Mode also uses the standard P2 database that is created using CT. The P2 database is loaded into the PXC Compact on P1 using MMI Database Transfer. Application Builder can be used to edit custom applications. Applications are designed using standard Tools (DT and CT). A P2 database for each application number is created in System Profile on the APPLICATIONSxx ALN (see the following figure). For example, Application 3015 is stored in PXC Compact node 15 on the APPLICATIONS30 ALN

46 PXC Compact on P1 P1 Mode Point Mapping In all P1 Mode applications, the following points are available to be mapped to virtual points: 3, 4, 7, 9, 17, 18, 19, 21, 22, 23, 24, 25, 26, 27, 28, 30 On the PXC-16, P1 points 31 through 46 are mapped to physical points 1 to 16, and P1 points 47 through 99 are also available to be mapped to virtual points. On the PXC-24, P1 points 31 through 54 are mapped to physical points 1 to 24, and P1 points 55 through 98 are also available to be mapped to virtual points. On both the PXC-16 and PXC-24, the following mapping between P1 points and the PXC Compact on P1 Panel Team points must always exist: Table 2: Required Mapping Between P1 Points and the PXC Compact on P1 P1 Panel Team Point Number Point Name P1 Panel Team Point Number Point Name 1 ADDRESS 12 DAY 2 APPLICATION 13 HOUR 5 BATT 14 MINUTE 6 BATT2 15 SYNC HOUR 8 P1 TIMEOUT 16 SYNC NOW 10 YEAR 20 OVRD TIME 11 MONTH 29 DAY.NGT The following points are not displayed on the P1 FLN; however, these points remain part of the PXC Compact on P1 Panel Team: ALMCNT ALMCT2 P1 COMM SECURE MODE P1 Mode Operation Since an ALN network connection is not present in P1 mode, PXC Compact applications that support point access across the ALN are limited to local points only. In P1 Mode, the PXC Compact, since it emulates an FLN device itself, does not communicate with any other FLN devices. Thus, all of the FLN device prompts at the HMI will be hidden. See the Field Panel User's Manual ( ) for more information. HMI prompts have been added to display APOGEE P1 point information. When in P1 mode, the HMI prompts to display APOGEE P2 point information are still available. If switching from P2 to P1 mode, or changing the active P1 Application, the PXC Compact deletes its database in flash. Because the point team and hardware capabilities are different, applications created for a PXC-16 cannot be used on a PXC-24 and vice-versa. PXC Compact on P1 displays as a TEC to ALN field panels and Insight software. It is compatible to all APOGEE revisions of firmware and software

47 PXC Compact on P1 Firmware Revision and later displays the hand/override/auto status of HOA subpoints at the ALN panel (*x*). The HOA status will be reported to the ALN level panel. Firmware revisions prior to will recognize the PXC Compact on P1 as an FLN device and will not display the override status. Firmware Revision and later provides the ability to backup and restore the PXC Compact database from the flash memory, in the event the PXC Compact is reset or loses power. When the PXC Compact is set to P1 Mode, database restoration from flash is automatically enabled and 128K of memory is reserved for ISB files. Figure 5: P1 Mode Enhanced Field Panel Point Team The field panel point team is a team of subpoints that are automatically created when the field panel starts up. The point team provides a defined set of points for consistent communication across the network. All points in the field panel point team may be monitored by the PPCL program in the PXC Compact on P1. The field panel team ADDRESS point (read only) is used as the P1 address in P1 mode, and the P2 ALN address in P2 mode. The following additional subpoints are automatically added to the field panel point team when the PXC Compact is in P1 mode: APPLICATION, DAY.NGT, and OVRD TIME, must be present in every P1 FLN device. APPLICATION is the currently active P1 application at the PXC Compact on P1. DAY.NGT and OVRD TIME are available for user-defined use with PPCL. BATT reflects the status of the lithium battery. BATT2 reflects the status of the Real Time Clock. If it has lost time, the coin cell battery is dead or missing. P1 TIMEOUT reflects the current communication status between the PXC Compact on P1 and its P1 Master Field Panel. P1 TIMEOUT is the number of minutes that need to expire with no field panel polling of the PXC Compact on P1 before the P1 COMM point is changed from YES to NO. PPCL in the PXC Compact on P1can monitor the P1 COMM point, and perform user desired operations. YEAR, MONTH, DAY, HOUR, MINUTE, SYNC HOUR, and SYNC NOW, are used to set and sync the time for the PXC Compact on P1. These points can be commanded to set an initial time for the PXC Compact on P1. The PXC Compact on P1 clock can be synchronized with the network time by using the SYNC HOUR and SYNC NOW points in a PPCL program and the CRTIME resident point in the field panel that has the PXC Compact on its FLN. When the SYNC NOW point is commanded to YES, the SYNC HOUR value is copied to the HOUR point, and the MINUTE point is set to zero

48 PXC Compact on P1 Hidden Points Hidden points are available and must be viewed through the field panel. P1 COMM is YES when a Field Panel is actively polling the PXC Compact on P1; otherwise, it is NO. SECURE MODE, indicates whether or not secure mode is enabled. PXC Compact on P1 uses the same Secure Mode messages as the TEC. Enabling Secure Mode prevents HMI users from modifying the contents of the PXC Compact database, and all users have only Read-Only access. Tips for P1 Mode This section contains tips for working in P1 mode. Backing up and Restoring the PXC Compact Database A database backup to flash overwrites any previous database backed-up to flash. A database restore to flash appends to the end of the current PXC Compact database in flash. A database backup takes from 3 seconds (smallest PXC Compact database) to 1:44 minutes (largest possible PXC Compact database). A database restore takes from 3 seconds (smallest DB) to 9:40 minutes. Loading Applications with WCIS Since WCIS only uploads applications once, you must manually delete the WCIS application file(s) when using the same application number at different job sites. Otherwise, you will load the wrong application at a job site even though the application number is correct. Merging Multiple Applications into One.ISB File NOTE: The ISB file size cannot exceed 128K, which is roughly 12 applications. Using Application Builder, multiple applications can be merged into a single.isb file so that a single replacement unit can be on site. At the time of use, the application needed can be selected at the HMI and the PXC Compact on P1 can download the appropriate.p2 file. Be careful when using the same application number on multiple field panels. It s possible to load the correct application number, but the wrong points (database). Using the P1 COMM Panel Team Point The P1 COMM point (a DI point with NO_YES state text) will reflect the current FLN communication status between the PXC Compact on P1 and its P1 host field panel. The P1 COMM point displays a value of YES if the PXC Compact on P1 has received a P1 Protocol message from its P1 host field panel in the last one minute, The P1 COMM point displays a value of NO if the PXC Compact on P1 has not received a P1 Protocol message from its P1 host field panel in the last one minute. Note that this one-minute timeout value is configurable through the P1 TIMEOUT point, an AO point with a default value of one minute

49 PXC Compact on P1 Miscellaneous A PXC Compact with Firmware Revision and later supports Wireless FLN devices on its FLN (if present); however, the PXC Compact on P1 currently cannot reside on a Wireless FLN. A PXC Compact on P1 supports WCIS use through the PXC Compact HMI port. Only P1 AO and DO points (and not AI and DI points) can be commanded across the P1 FLN when working at the PXC Compact on P1. Referencing Points on the PXC Compact on P1 When working at the host field panel (the field panel that has the PXC Compact on P1 on its FLN), points in the PXC Compact on P1 are referenced similar to how TEC subpoints are referenced. For example, if the PXC Compact on P1 name is PXC13, the YEAR point is referenced as PXC13:YEAR. When working at the HMI of the PXC Compact on P1, the P1 points are not accessed directly. The P2 databases, physical points, virtual points, or panel team points that are mapped to the P1 points are referenced, instead. Example of a physical point: AO9 Example of a panel team point:!field panel 7:P1 COMM, where 7 is the P2 address of the PXC Compact. Procedures for Advanced Features This section contains the advanced features for setting up a PXC Compact on P1. Adding Unused I/O for PXC Compact on P1 (Optional) When a PXC Compact on P1 database is loaded, the controller only configures the point addresses that are defined in the database. Any undefined Input/Output (I/O) points will not be accessible. Consequently, these I/O points cannot be used as spare points in the PXC Compact on P1 in the future. In order to make these spare I/O points available, follow these suggestions: For UC to P1PXC Migration, add unused I/O points to the UC database before starting the migration process. For new installations of the PXC Compact on P1, add unused I/O points to the P1PXC while designing the database in CT. Tips Define the most likely point types that will be used on the site for the spare points. For example, 1K ohm RTD, 0-10 V, 4-20 ma, LDI, and so on If using a PXC-16, be sure to stay within the point count. A full UC has 20 Non-DO points and 4 DOs, whereas the PXC-24 has 19 Non-DO points and 5 DOs. Do the following if one of the Digital Outputs will not be defined: After the UC database conversion is complete, add a fifth DO to the Application database. Run the P2/P1 Application Converter tool to add the DO to the P1 point team

50 PXC Compact on P1 Steps Working in Commissioning Tool The following Migration procedure provides access to unused I/O points. 1. In System Profile, right-click on the UC. The UC Definition dialog box opens. 2. Click Properties. 3. Select the type of point that you wish to add (determine what type of points the Universal I/Os will be). 4. Add spare points to the PXC Compact for this application. Changing the Point Team Descriptor After Database Conversion If more than 16 characters are entered in the application description, the additional characters are truncated in the P1 point team. Do the following if the point team descriptor needs to be changed after the database is converted: 1. Open System Profile and double-click the icon for the PXC Compact on P1. The Field Panel Definition dialog box opens. 2. In the Descriptor field, change Application 3xxx to a 16-character description of the application. 3. Follow the procedure for modifying the P1 point team after conversion as described in the section Making Changes to the Original PXC Compact on P1 Database. Defining an L2SL from a PXC Compact on P1 into the Host Field Panel The following table outlines how points are converted to the P1 point team for the PXC Compact on P1. Table 3: Point Type Conversions in the P1 Point Team Original Point Type Point Type in the P1 Point Team L2SL LAO LAI LDO LDI LENUM LDO* LAO LAI LDO LDI LAO LPACI LAO ** * This article describes how to regain full L2SL functionality at the host field panel

51 PXC Compact on P1 ** See the section Program to allow LPACI Points to Count over the LAO Maximum Value in this Appendix. The following point types are not supported by the PXC Compact in P1 mode: L2SP LOOAL LOOAP LFSSL LFSSP In the PXC Compact on P1 internal (P2) database, a DO point and DI point can be combined into an L2SL point. However, when this point is converted into the P1 database (with FFC or P2/P1 Application Converter), only the LDO point is defined in the point team because the point team does not support the L2SL point type. Steps Do the following in order to use the L2SL functionality at the host field panel and Insight: 1. In the PXC Compact on P1 internal (P2) database, define a separate LDI point with the same address as the L2SL proof point. 2. Define (manually unbundle) an L2SL point at the host field panel. 3. Define the L2SL at the host field panel using the appropriate DO and DI addresses from the Application Point Team (3000 to 3899) associated with that particular PXC Compact on P1. Example A PXC Compact on P1 resides on the FLN of a host field panel at panel address 5, FLN 1, drop address 9 (5.1.9). The P2 database of the PXC Compact on P1 has an L2SL defined with DO at address 24 and DI at address 1. An LDI is also defined separately on address 1. The P1 database (point team) defines the separate points were DO is at address 54 and DI is at address 31. At the host field panel, you would define an L2SL point with the DO address of and the DI (proof) address of This new point can be alarmed, monitored, and commanded as a normal L2SL point. Identifying the Hardware Model Used in an Application Design Working in Commissioning Tool Do the following to easily identify the PXC Compact Series hardware model used in an application design: 1. After the database is converted, open System Profile and double-click the icon for the PXC Compact on P1. The Field Panel Definition dialog box opens. 2. In the Name field, add.pxc16 or.pxc24 to the existing name. Depending on your account settings, System Profile and MMI Database Transfer displays the hardware information in Name or System Name

52 PXC Compact on P1 Making Changes to the Original PXC Compact on P1 Database NOTE: If any of the P1 application points are changed, the P1 application number should also be changed to avoid conflict with the rest of the APOGEE Automation System that has uploaded and is using the unmodified application. Working in Commissioning Tool 1. Backup the CT database. 2. Make desired changes to the 3xxx field panel database. 3. In System Profile, delete all TECs with the modified 3xxx application number. 4. Run P2/P1 Application Converter. 5. In System Profile, add the TECs back to the appropriate address locations. Working at the PXC Compact on P1 1. Disconnect the FLN cable from the PXC Compact on P1. 2. Connect to the HMI. 3. Clear Flash memory. 4. Disable Flash memory Autorestore. Working in Commissioning Tool 1. Use FLT to load modified ISB file into the PXC Compact on P1. 2. Use MM Database Transfer to load the modified 3xxx P2 database into the PXC Compact on P1. Working at the PXC Compact on P1 1. Modify PXC Compact on P1 hardware point wiring to match modified sub-point addressing (if necessary). 2. Connect to the HMI. 3. Verify that the controller functions properly (commissioning). 4. Save Flash memory. 5. Enable Flash memory Autorestore. 6. Reconnect the FLN cable to the PXC Compact on P1. Working at the Insight Workstation 1. Backup the Insight database. 2. Export NFP data and copy RENO definitions. 3. In System Profile, delete all TECs with the modified 3xxx application number. 4. In System Profile, Tools, Auto Unbundling window, delete the 3xxx application. 5. In System Profile, add the TECs back to the appropriate address locations

53 PXC Compact on P1 6. Use Database Transfer to upload the host field panel where the 3xxx application resides. 7. Import NFP data and enter the RENO definitions. Program to Allow LPACI Points to Count Over the LAO Maximum Value NOTE: This program must be duplicated for each LPACI point that was converted. A program must be added to the host field panel to allow an LPACI point from a PXC Compact on P1 to count over the LAO maximum value. During the migration of a UC to a PXC Compact on P1, the UC is converted into a TEC with respect to the Host Field Panel. A TEC point team cannot contain an LPACI point type as one of its team members (subpoints). Therefore, during the UC database conversion, any LPACI points in the UC point team are converted to LAO points. The new LAO points reside in the PXC Compact on P1 (TEC) point team. These LAO points roll over to 0 (zero) when a value of up to times the LPACI point gain is reached. Resetting an LPACI to Zero To reset the entire LPACI to zero, do the following in this order: 1. Command the FLN P1 point (P1PXC:LPACI) to zero. 2. Command the VIRTCNT point to zero. Program to Allow the Value to Count up to the Normal LPACI Range If a maximum value of up to times the LPACI point gain is not acceptable, implement the following program in the host field panel to allow the value to count up to the normal LPACI range. 110 IF ( P1PXC:LPACI.EQ. 0) THEN TEMP = TEMP + 1 ELSE TEMP = IF ( TEMP.EQ. 1.0) THEN VIRTCNT = VIRTCNT VLPACI = (( VIRTCNT * ) * GAIN) + P1PXC:LPACI Where: P1PXC:LPACI is the subpoint of the PXC Compact on P1 which is defined as an LAO but represents an LPACI input in the PXC Compact on P1. TEMP is a virtual LAO point used to make sure the counter only increments once each time the LPACI point reads 0. VIRTCNT is a virtual LAO point used to count how many times the LPACI rolls over to 0. VLPACI is a virtual LPACI point used to hold the full LPACI value. (Gain = 1.0) GAIN is a virtual LAO point used to hold the gain value of the LPACI point in the PXC Compact on P

54 PXC Compact on P1 Example The following example illustrates using this same logic in a PPCL subroutine (GOSUB) if several LPACI points should be calculated at once. 100 GOSUB 200 ( P1PXC1:LPACI, TEMP1, VIRTCNT1, VLPACI1, GAIN1 ) 110 GOSUB 200 ( P1PXC2:LPACI, TEMP2, VIRTCNT2, VLPACI2, GAIN2 ) 120 GOSUB 200 ( P1PXC3:LPACI, TEMP3, VIRTCNT3, VLPACI3, GAIN3 ) 130 GOTO IF ($ARG1.EQ. 0) THEN $ARG2 = $ARG2 + 1 ELSE $ARG2 = IF ($ARG2.EQ. 1.0) THEN $ARG3 = $ARG $ARG4 = (($ARG3 * ) * $ARG5) + $ARG1 230 RETURN 240 GOTO 100 Real Time Applications in a PXC Compact on P1 The PXC Compact does not access system time directly when connected over the FLN. Real Time applications operating in the PXC Compact on P1, such as Scheduler, SSTO, TOD, TIME, CRTIME, DAY, or DAYOFM, depend on valid time-date. Trend data depends on valid time-date as well as RAM backup. Appropriate control points for the host field panel should be created as addressed virtual LDO or LAO points. They will be added to the point team by the P2/P1 App Convert Tool. Resetting System Time in a PXC Compact on P1 Additional PPCL must be included in the PXC Compact on P1 and its host field panel to ensure time-date remains valid. See Compact Series Backup Batteries [ 23] for detailed battery operation and how to access in the PXC Compact. NOTE: If needed, access the Real Time Clock (RTC) oscillator status from the host field panel by using the unbundled point team [name]:batt2. NOTE: If needed, access the AA battery status (RAM backup battery) from the host field panel by using the unbundled point team [name]:batt

55 PXC Compact on P1 Working at the PXC Compact on P1 Create Mainline PPCL to Flag Loss of Time and Execute Alternative Non-Time-Date Routines Until Time-Date is Restored In the PXC Compact on P1 application database, create an addressed virtual LDO point VTIME and PPCL statement to turn it OFF when BATT2 has a value of 0 during the ONPWRT() routine. VTIME will be used to either stop execution or run the nontime-date routines until time-date is set. If VTIME is OFF, it will be turned ON by the host field panel C TEST REAL TIME CLOCK STATUS ONCE DURING POWER RETURN 00012C IF RTC IS STOPPED THEN SET VIRTUAL LDO (VALID TIME) OFF 00014C AND BRANCH TO RUN ALTERNATIVE NON-TIME-DATE ROUTINES 00016C HOST FIELD PANEL WILL SET DATE, TIME AND TURN VTIME ON 00018C ELSE BRANCH TO RUN NORMAL TIME-DATE ROUTINES 00020C ACCESS RTC FROM LOCAL RESIDENT POINT "!Field panel #:BATT2" 00022C WHERE # IS NODE # AND CHANGES WITH LAST 2 DIGITS OF APPLICATION 00030ONPWRT(50) 00040GOTO IF("!Field panel 1:BATT2".EQ. 0) THEN OFF("3001.VTIME") ELSE ON("3001.VTIME") NOTE: The following warning is displayed in the PPCL editor: Warning: unresolved symbol:!field panel 1:BATT2. The point is resolved once the PXC Compact on P1 is fully commissioned on the FLN IF("3001.VTIME".EQ. ON) THEN GOTO C ALTERNATIVE NON-TIME-DATE ROUTINES non-time-date routines 00998C NORMAL TIME-DATE ROUTINES time-date routines -or- stop execution and omit alternative non-time-date routines 00060IF( 3001.VTIME.NE. ON) THEN GOTO GOTO

56 PXC Compact on P1 Working at the Host Field Panel Create a Mainline Program to Update Time-Date Local Variables on each Pass Through PPCL NOTE: The PXC Compact on P1 YEAR, MONTH, DAY, HOUR, and MINUTE resident points can be used to read and set the current time from the host field panel. In P1 mode, these points can only be commanded to the following ranges: YEAR (2000 to 2058), MONTH (1 to 12), DAY (1 to 31), HOUR (0 to 23), and MINUTE (0 to 59). The host field panel does not itself have year, hour or minute resident points. Its CRTIME is evaluated only once per pass to prevent rollover errors. There is not a SECOND point to avoid generating too many COV s as the time changes at the PXC Compact on P1 every second. Local variables are assigned for clarity instead of $LOCn C MAINLINE PROGRAM FIELDPANELNAME.P1PXCC.PPCL 00012C MANAGES ALL PXC COMPACT ON P1 HOSTED BY THIS FIELD PANEL 00014C 00016C CREATE LOCAL POINTS FOR SETTING TIME-DATE AND SYNCHRONIZING TIME 00020LOCAL(VSYNHR,VYEAR,VMONTH,VDAYM,VHOUR,VMIN,VCRTM,VLOCK) 00022C DEFINE A VIRTUAL LAO VYEAR IN ONE FIELD PANEL OR SOFT CONTROLLER 00024C ANNUALLY SET VALUE AND INITIAL VALUE OF VYEAR TO CURRENT YEAR 00026C 00028C SET LOCAL VYEAR TO GLOBAL, VALID VALUES ARE 2000 TO $VYEAR=VYEAR 00038C SET SYNC HOUR TO 3AM, VALID VALUES ARE 0 TO $VSYNHR = C SET MONTH, VALID VALUES ARE 1 TO $VMONTH = MONTH 00058C SET DAY OF MONTH, VALID VALUES ARE 1 TO $VDAYM = DAYOFM 00068C EXTRACT HOUR FROM CRTIME, VALID VALUES ARE 0 TO $VCRTM = CRTIME 00080IF($VCRTM.GE.0.0.AND.$VCRTM.LT.1.0) THEN $VHOUR = IF($VCRTM.GE.1.0.AND.$VCRTM.LT.2.0) THEN $VHOUR = IF($VCRTM.GE.2.0.AND.$VCRTM.LT.3.0) THEN $VHOUR = IF($VCRTM.GE.3.0.AND.$VCRTM.LT.4.0) THEN $VHOUR = IF($VCRTM.GE.4.0.AND.$VCRTM.LT.5.0) THEN $VHOUR = IF($VCRTM.GE.5.0.AND.$VCRTM.LT.6.0) THEN $VHOUR = IF($VCRTM.GE.6.0.AND.$VCRTM.LT.7.0) THEN $VHOUR = IF($VCRTM.GE.7.0.AND.$VCRTM.LT.8.0) THEN $VHOUR = IF($VCRTM.GE.8.0.AND.$VCRTM.LT.9.0) THEN $VHOUR = IF($VCRTM.GE.9.0.AND.$VCRTM.LT.10.0) THEN $VHOUR =

57 PXC Compact on P IF($VCRTM.GE.10.0.AND.$VCRTM.LT.11.0) THEN $VHOUR = IF($VCRTM.GE.11.0.AND.$VCRTM.LT.12.0) THEN $VHOUR = IF($VCRTM.GE.12.0.AND.$VCRTM.LT.13.0) THEN $VHOUR = IF($VCRTM.GE.13.0.AND.$VCRTM.LT.14.0) THEN $VHOUR = IF($VCRTM.GE.14.0.AND.$VCRTM.LT.15.0) THEN $VHOUR = IF($VCRTM.GE.15.0.AND.$VCRTM.LT.16.0) THEN $VHOUR = IF($VCRTM.GE.16.0.AND.$VCRTM.LT.17.0) THEN $VHOUR = IF($VCRTM.GE.17.0.AND.$VCRTM.LT.18.0) THEN $VHOUR = IF($VCRTM.GE.18.0.AND.$VCRTM.LT.19.0) THEN $VHOUR = IF($VCRTM.GE.19.0.AND.$VCRTM.LT.20.0) THEN $VHOUR = IF($VCRTM.GE.20.0.AND.$VCRTM.LT.21.0) THEN $VHOUR = IF($VCRTM.GE.21.0.AND.$VCRTM.LT.22.0) THEN $VHOUR = IF($VCRTM.GE.22.0.AND.$VCRTM.LT.23.0) THEN $VHOUR = IF($VCRTM.GE.23.0) THEN $VHOUR = C EXTRACT MINUTE USING HOUR, VALID VALUES ARE 0 TO $VMIN = ($VCRTM - $VHOUR) * 60 Working at the Host Field Panel Add Mainline PPCL to Call a Subroutine for each PXC Compact on P1 Hosted to Assign the Time-Date Resident Points to the Local Time-Date Points 00322C 00324C MANAGE SETTING TIME ON DEMAND 00326C ENTER A GOSUB FOR EACH PXC COMPACT ON P1 WITH TIME THAT IS HOSTED BY THIS FIELD PANEL 00328C SUBROUTINE WILL SET TIME FOR EACH VTIME THAT IS TURNED OFF BY ITS INDIVIDUAL PXC COMPACT ON P GOSUB 2000 "B2.AHU1:YEAR", "B2.AHU1:MONTH", "B2.AHU1:DAY", "B2.AHU1:HOUR", "B2.AHU1:MINUTE", "B2.AHU1:VTIME" 00340GOSUB 2000 "B2.AHU2:YEAR", "B2.AHU2:MONTH", "B2.AHU2:DAY", "B2.AHU2:HOUR", "B2.AHU2:MINUTE", "B2.AHU2:VTIME" C 01988C END OF MAINLINE CODE BYPASS SUBROUTINES TO END 01990GOTO C 01994C SUBROUTINE TO ASSIGN FIXED TIME ON A SINGLE PXC COMPACT ON P C RETURN WITHOUT ASSIGN IF VTIME ($ARG6) IS ON MEANING TIME IS VALID 01998C ASSIGN YEAR TO GLOBAL VYEAR VALID VALUES 2000 TO IF($ARG6.EQ.ON) THEN GOTO $ARG1 = VYEAR 02018C ASSIGN MONTH TO FIELD PANEL MONTH VALID VALUES 1 TO $ARG2 = $VMONTH

58 PXC Compact on P C ASSIGN DAY OF MONTH TO FIELD PANEL DAY OF MONTH VALID VALUES 1 TO $ARG3 = $VDAYM 02038C ASSIGN HOURS TO FIELD PANEL HOURS VALID VALUES 0 TO $ARG4 = $VHOUR 02048C ASSIGN MINUTES TO FIELD PANEL MINUTES VALID VALUES 0 TO $ARG5 = $VMIN 02058C ASSIGN VTIME ON IN THIS PXC COMPACT ON P ON($ARG6) 02070RETURN C RETURN CONTROL TO MAINLINE PROGRAM 32000GOTO 10 Synchronizing System Time in a PXC Compact on P1 System time in the PXC Compact on P1 can be synchronized daily by the host field panel. The resident P1 points SYNC HOUR (value of 0 to 23) and SYNC NOW (value of ON or OFF) can be commanded by the host field panel over the FLN. For example, if the SYNC HOUR point is commanded to 2.0, when the SYNC NOW point is commanded to ON, the time at the PXC Compact on P1 will be set to 2:00 a.m. Note that the SYNC NOW point is automatically reset to OFF by the PXC Compact on P1 once it syncs its time. Working at the Host Field Panel Add Mainline PPCL to Call a Subroutine for each PXC Compact on P1 Hosted to Synchronize Time Once Daily C 00994C MANAGE SYNCHRONIZING TIME ONCE DAILY IN ALL PXC COMPACT ON P1 HOSTED BY THIS FIELD PANEL 00996C LOCKOUT $VLOCK IS OFF OUTSIDE OF $VSYNHR PLUS 18 SECOND (0.005 HOUR) WINDOW 00998C ON FIRST PASS LOCKOUT IS TURNED ON AND SUBROUTINES ACCESSED 01000IF($VHOUR.EQ.$VSYNHR.AND.($VCRTM-$VHOUR).LT.0.005) THEN GOTO OFF($VLOCK) 01020GOTO IF($VLOCK.EQ.OFF) THEN GOTO GOTO ON($VLOCK) 01054C 01056C ENTER A GOSUB FOR EACH PXC COMPACT ON P1 WITH TIME HOSTED BY THIS FIELD PANEL 01058C SUBROUTINE SYNCHRONIZES TIME ONCE DAILY AT $VSYNHR 01060GOSUB 2100 "B2.AHU1:SYNC HOUR", "B2.AHU1:SYNC NOW"

59 PXC Compact on P GOSUB 2100 "B2.AHU2:SYNC HOUR", "B2.AHU2:SYNC NOW" C C END OF MAINLINE CODE BYPASS SUBROUTINES TO END 01990GOTO C 02096C SUBROUTINE TO SYNCHRONIZE TIME ON A SINGLE PXC COMPACT ON P C SET SYNCH HOUR VALID VALUES 0 TO $ARG1 = $VSYNHR 02108C SET SYNC NOW TO ON = 1, PXC COMPACT ON P1 WILL RESET TO OFF = $ARG2 = RETURN C RETURN CONTROL TO MAINLINE PROGRAM 32000GOTO 10 Default Applications Both the PXC-16 and PXC-24 support a default (slave mode) application, which is useful if a custom application has not yet been loaded into the PXC Compact on P1 in an Application ISB file. If a PXC Compact is set up in P1 mode without an application number, the default application is used. For the PXC-16 the default application is 3916; for the PXC-24, the default application is AI and DI points in all applications can only be read (and not commanded). AO and DO points can be both read and commanded. For compatibility with existing APOGEE tools, Points 1, 2, 20, and 29 are the traditional FLN points ADDRESS, APPLICATION, OVRD TIME, and DAY.NGT. When the PXC-16 is using the default application, the 16 physical I/O points (1 to 16) in the PXC Compact on P1 are mapped to the corresponding P1 points 31 to 46. When the PXC-24 is using the default application, the 24 physical I/O points (1 to 24) in the PXC Compact on P1 are mapped to the corresponding P1 points 31 to

60 PXC Compact on P1 Point Database for Application 3916 PXC Compact Point Database for Application 3916 Point Type Point Number Descriptor Factory Default (SI Units) Engr Units (SI Units) Slope (SI Units) Intercept (SI Units) On Text Off Text LAI {01} ADDRESS LAO {02} APPLICATION LAI {05} BATT LAI {06} BATT LAO {08} P1 TIMEOUT 1 MIN LAO {10} YEAR LAO {11} MONTH LAO {12} DAY LAO {13} HOUR LAO {14} MINUTE LAO {15} SYNC HOUR LDO {16} SYNC NOW NO YES NO LAO {20} OVRD TIME 0 HRS LDO {29} DAY.NGT DAY NIGHT DAY LAI {31} UI1 0.0 MA LAI {32} UI2 0.0 MA LAI {33} UI3 0.0 MA LAI {34} U4 0.0 VDC LAI {35} U5 0.0 VDC LAI {36} U6 0.0 VDC LAI {37} U7 0.0 DEG F (DEG C) LAI {38} U8 0.0 DEG F (DEG C) LAO {39} AO9 0.0 VDC LAO {40} AO VDC LAO {41} AO VDC LAI {42} DI12 OFF ON OFF LAI {43} DI13 OFF ON OFF LDO {44} DO14 OFF ON OFF LDO {45} DO15 OFF ON OFF LDO {46} DO16 OFF ON OFF

61 PXC Compact on P1 Point Database for Application 3924 PXC Compact Point Database for Application 3924 Point Type Point Number Descriptor Factory Default (SI Units) Engr Units (SI Units) Slope (SI Units) Intercept (SI Units) On Text Off Text LAI {01} ADDRESS LAO {02} APPLICATION LAI {05} BATT LAI {06} BATT LAO {08} P1 TIMEOUT 1 MIN LAO {10} YEAR LAO {11} MONTH LAO {12} DAY LAO {13} HOUR LAO {14} MINUTE LAO {15} SYNC HOUR LDO {16} SYNC NOW NO YES NO LAO {20} OVRD TIME 0 HRS LDO {29} DAY.NGT DAY NIGHT DAY LAI {31} UI1 0.0 MA LAI {32} UI2 0.0 MA LAI {33} UI3 0.0 MA LAI {34} U4 0.0 MA LAI {35} U5 0.0 VDC LAI {36} U6 0.0 VDC LAI {37} U7 0.0 VDC LAI {38} U8 0.0 VDC LAI {39} U9 0.0 DEG F (DEG C) LAI {40} U DEG F (DEG C) LAI {41} U DEG F (DEG C) LAI {42} U DEG F (DEG C) LDI {43} X13 OFF ON OFF LDI {44} X14 OFF ON OFF LDI {45} X15 OFF ON OFF LDI {46} X16 OFF ON OFF LAO {47} AO VDC LAO {48} AO VDC

62 PXM10S/T Product Overview and Description PXC Compact Point Database for Application 3924 LAO {49} AO VDC LDO {50} DO20 OFF ON OFF LDO {51} DO21 OFF ON OFF LDO {52} DO22 OFF ON OFF LDO {53} DO23 OFF ON OFF LDO {54} DO24 OFF ON OFF PXM10S/T Product Overview and Description NOTE: All figures show the BACnet version of the PXM10S and PXM10T. The appearance of the proprietary version may differ slightly. PXM10S and PXM10T are optional controller mounted Operator Display modules that provide a password protected user interface. This interface allows you to interact with the existing field panel database and its immediate sub-networked Siemens (FLN) devices. (Optional remote enclosure door mount kit also available.) NOTE: All unacknowledged alarms are viewable even if you are not logged into the module. Product Description The PXM10S and PXM10T modules are available as an upgrade for use with all Siemens Compact and Modular Series field panels to provide additional local operator capabilities. The PXM10S and PXM10T modules are field mounted and replace the field panel covers. There are three dedicated buttons, ALARM, INFO, ESC and one push DIAL. These buttons, the push dial, and LCD display screen allow for interactive feedback at the field panel controller. The PXM10S and PXM10T modules support all the languages loaded in the host field panel. There are two versions of the modules as follows: PXM10S has all available options, including Point Monitor and optional blue backlight color. PXM10T does not include the Point Monitor or the optional blue backlight color. Language selection and user account timeout settings are configurable using an operator workstation or HyperTerminal at the field panel s HMI. All PXM10S/T preferences are panel-specific and stored in the local panel configuration data

63 PXM10S/T Product Overview and Description NOTE: For more information on creating and configuring user accounts, see the APOGEE P2 ALN Field Panel User's Manual ( ) or the APOGEE BACnet ALN Field Panel User's Manual ( ) ( or ). Product Features The PXM10S and PXM10T modules provide the following features: Plug and Play - Upon connection to the host field panel, the device is recognized and fully functional. Hot Swappable The module can be installed or removed without powering down the controller and interrupting facility operations. User-friendly navigation and menu structure. Push DIAL for easy operation. Alarm button with red LED indicator for local alarm annunciations. INFO button provides one touch access to detailed system information for points. Manual and automatic login option for enhanced security or easy access. View point information and status, view and acknowledge alarms, and command/release local field panel points. Point Monitor Can customize a group of points to continuously display and refresh with updated values (PXM10S only). Multi-language (English, Simplified Chinese, French, and Korean) support. The PXM10S and PXM10T modules can also be mounted on the inside or outside of an enclosure door, using an optional accessory sold separately. Communication Connections A field panel fully powered and running Firmware Revision 2.8.6/3.2.2 or later, recognizes the PXM10S and PXM10T modules within approximately 5 seconds of connection. Prior to that, the Operator Display is not operational. If a field panel is coldstarted or it s the first time the panel is powered up, it takes approximately 15 to 30 seconds after connection before the PXM10S and PXM10T module is operational. Requirements System Requirements The PXM10S and PXM10T modules can be used with Compact platforms (PXC-36, PXC-24, and PXC-16), as well as with the PXC Modular field panels. NOTE: The PXM10S or PXM10T module firmware uses the proprietary Siemens PXM10 protocol to communicate with the host field panel

64 PXM10S/T Product Overview and Description All hardware must be installed. Power must be available to all devices. System components must be installed, running, and checked out by an appropriate system representative. During heavy network activity, the PXM10S and PXM10T module performance may degrade causing slower refresh rates. Furthermore, the performance of the field panel may also be impacted if the PXM10S or PXM10T module is being used on a field panel that has a significant workload. Hardware Platform The PXM10T and PXM10S modules can be used on all Siemens Compact and Modular series controllers. An additional connecting ribbon cable (part number PXA- HMI.CABLEP5) is required when mounting to a PXC16 or PXC24. Firmware Platform The PXM10T and PXM10S modules are compatible with all Siemens Compact and Modular series controllers using Firmware Revision 2.8.6/3.2.2 or later (proprietary protocol/bacnet). Application Menus The following application menus are provided with the PXM10S and PXM10T modules. Login Alarms Points (Command and Release) Point Monitor Logoff Settings NOTE: You must have sufficient operator access permissions to the Alarms, Points, and Point Monitor applications to fully use all features and corresponding submenus. Operator Display Specifications Electrical Power Consumption 5V/60 ma (from host controller) LCD Display Film Compensated Super Twisted Nematic Display (FSTN) LCD Display area Resolution Backlight Type 2.42 x 1.14 inches 128 x 64 pixels LED

65 PXM10S/T Product Overview and Description Dimensions (L x W x D) Weight 5.65 in. x 1.8 in. x.70 in. (14.4 cm x 4.6 cm x 1.7 cm) 0.24 lb Operating Environment Ambient Operating Temperature 23 to 122 (-5 to 50 ) Shipping and storage -13 to 167 (-25 to 70 ) Agency Listings UL Listing UL916 PAZX cul Listed Canadian Standard C22.2 No PAZX7 FCC Compliance 47 CFR Part 15 CE, C-Tick WEEE RoHS Compliant Compliant Compliant Operator Display Layout Display screen Displays splash screen with either PXM10S or PXM10T module, device Firmware Revision, field panel Firmware Revision number, and Cimetrics BACstac revision number. Cursor position is indicated by either a right-angled bracket (>) or inverted text color, depending on field panel type and revision. Figure 6: Splash Screen

66 PXM10S/T Product Overview and Description NOTE: If text information is too long for the display screen, the text scrolls horizontally across the screen, in a marquee style. If a high-priority task (such as a back-up) is being performed, the horizontal scrolling may be erratic. NOTE: The list of objects (once it is created) that displays for the Alarms, Points, and Point Monitor menus is static, however, the point information (current value, status, priority, etc.) is dynamic. You must leave the menu/page and return to it in order to view any updated information. Navigation Push DIAL Rotate clockwise or counter clockwise to highlight menu options (up or down). Press the dial to enter a menu or to make a selection. Rotate the dial to change a value. Pressing the dial is equivalent to selecting OK. ESC button Press once to return to previous menu/page or backspace during text/value editing. INFO button Press once to navigate to the window containing all available information about the point on selected line. Alarm button Press to display the unacknowledged alarm list. The Alarm LED flashes when an alarm is triggered in the local field panel. Pressing the Alarm button always takes you directly to the unacknowledged alarm list. The three states of the Alarm LED are: Alarm LED On if any object is in the Alarm or Failed condition, but no object is in the unacknowledged condition, the LED light is ON solid. Alarm LED blinking if any object is in the unacknowledged condition, the LED light flashes. Alarm LED Off if no Alarm or Failed conditions are present, and no object is in the unacknowledged condition, the LED light is OFF. Alarm button Press to display the Active Alarm menu. The Alarm LED flashes when an alarm is triggered in the system. Pressing the Alarm button always takes you directly to the unacknowledged alarm list. The three states of the Alarm LED are: Alarm LED On if any object is in the off-normal or fault condition, the LED light is ON solid. Alarm LED blinking if any object is in the unacknowledged condition, the LED light flashes. Alarm LED Off if no off-normal or fault conditions are present, and no object is in the unacknowledged condition, the LED light is OFF

67 PXM10S/T Product Overview and Description Alarm Window There are two ways to view alarms, both of which display the alarm list with the point system name and status: Alarm button. Provides direct access to the list of unacknowledged alarms. Alarm menu. Displays any point in alarm, regardless if it has been acknowledged or not and provides three generic filters: Unacknowledged Alarms filter allows you to filter all alarms and lists only unacknowledged alarms in local system. All Alarms filter allows you to view all acknowledged and unacknowledged alarms in the system. Failures/Faults filter allows you to view all failures/faults in the system for which alarming has been enabled. Pressing the INFO button for point information displays: For APOGEE: system name alarm time acknowledged time acknowledge pending point value point status For each of the three APOGEE BACnet states (off-normal, normal, and fault): alarm enable, alarm time, acknowledged time, point value, and point status. Figure 7: INFO for Alarms Press ESC to close alarm window without affecting the alarm

68 PXM10S/T Product Overview and Description Operator Display Menu Tree Login and Logoff You must have at least Read Only level access permission to log in to the PXM10S or PXM10T module. If you log in and you have no access level permissions, the system will immediately log you off the module. After three failed login attempts, the user account will be locked. An administrator must use the HMI to unlock the user accounts by modifying that particular user account. Also, you can only change your password for the PXM10S or PXM10T modules from the HMI

69 PXM10S/T Product Overview and Description Logging In Automatic Login The PXM10S or PXM10T automatic login feature must be configured using the host field panel s HMI port. Only one user account can be flagged as the automatic login account. NOTE: Default user account login information for PXM10S or PXM10T is on a per ALN account basis. If your network contains an assortment of field panels with Firmware Revisions earlier than 2.8.6/3.2.2, the AutoLogin account is not replicated or passed onto other field panels. For more information about workstation user accounts, see the InsightOnline Help system. Configuring AutoLogin at the HMI with HyperTerminal Complete the following steps to configure an automatic login using HyperTerminal at the host field panel s HMI. You must be logged into the field panel with an account that has Edit level access permission to the user's access group. HMI S, U, A, E, A (System, Users, Accounts, Edit, Add) Prompt/Field Option/Entry Description User initials Account name Password Verify password Type the new user s initials. Type the account name. Type a password for the user. Retype the password. System, User namespace S View System point names. U View User point names. (default setting) Access group(s) All groups. (default setting). A single access group. Valid value 1 through 30. Privilege NOTE: Auto User accounts need access to Point and Alarm ONLY. Multiple access groups. Point Alarm Trend Valid values 1 through 30 separated by commas, or use two periods to indicate a range (for example, 1..4,7,9,12..20). N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting)

70 PXM10S/T Product Overview and Description Application PPCL FLN devices Equipment Scheduler System Diagnostics Users Hardware N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) N (No_access) R (Read_only) C (Command) E (Edit) (default setting) Language ID Language Default Particular language. Language ID,? displays all available languages. NOTE: You can also enter nothing, to display all available languages. Time format (HH:MM:SS) Default Particular format. Time format;? displays all available formats. NOTE: You can also enter nothing, to display all available Time formats. Date format (MM/DD/YYYY) Default Particular format. Date format;? displays all available formats. NOTE: You can also enter nothing, to display all available Date formats. AutoLogoff enabled (Y/N) Y Enable automatic logoff. AutoLogoff delay. N 1 to 1440 minutes. Disable automatic logoff. Password Expire Limit 0 to 365 days. Use for PXM10Tiny AutoLogin (Y/N) Y Enable automatic login. N Disable automatic login

71 PXM10S/T Product Overview and Description Example >User initials : tiny >Account name : PXM10TINY >Password :????? >Verify password :????? >System, User namespace : U >Access group(s) : >Point privilege - No_access, Read_only, Command, Edit: E >Alarm privilege - No_access, Read_only, Command, Edit: E >Trend privilege - No_access, Read_only, Command, Edit: E >Application privilege - No_access, Read_only, Command, Edit: E >PPCL privilege - No_access, Read_only, Command, Edit: E >FLN devices privilege - No_access, Read_only, Command, Edit: E >Equipment Scheduler privilege - No_access, Read_only, Command, Edit: E >System privilege - No_access, Read_only, Command, Edit: E >Diagnostics privilege - No_access, Read_only, Command, Edit: E >Users privilege - No_access, Read_only, Command, Edit: E >Hardware privilege - No_access, Read_only, Command, Edit: E >Language ID : 0409 >Time format : HH:MM:SS--- >Date format : MM/DD/YYYY- >AutoLogoff enabled (Y/N) : Y >AutoLogoff delay : 5--- >Password Expire Limit : 30- >Use for PXM10Tiny AutoLogin (Y/N): Y User account <tiny> added NOTE: For more information on creating and configuring user accounts, see the APOGEE P2 ALN Field Panel User's Manual ( ) or the APOGEE BACnet ALN Field Panel User's Manual ( ) ( or ). Do the following to automatically log in to the PXM10S or PXM10T module. Figure 8: Automatic Login Submenu

72 PXM10S/T Product Overview and Description Menu/Submenu Step Description Splash screen/logo Press the dial. Login Rotate the dial to highlight Automatic Login. Press the dial to select Automatic Login. Login menu displays. System logs you into the Main menu of the module. Figure 9: Main Menu Manual Login Do the following to manually log in to the PXM10S or PXM10T module. The default language for manual login is U.S. English. Figure 10: Manual Login Submenu Menu/Submenu Step Description Splash screen/logo Press the dial. Login Rotate the dial to highlight Manual Login. Press the dial to select Manual Login. Login menu displays. Displays the Manual Login submenu. Manual Login USR **** PWD *************** Enter your user name (up to 4 characters) and password (3 to 15 characters). A one character username is allowed. NOTE: You can only use capital letters A through Z for user name and passwords. For USR, rotate the dial to highlight each character. Press the dial to select each character. Repeat until you enter the complete user name. NOTE: If you make a mistake selecting a character, press ESC to return to the previous character

73 PXM10S/T Product Overview and Description Menu/Submenu Step Description Press the dial twice to move to the PWD fields. For PWD, rotate the dial highlight each character. Press the dial to select a character. Repeat until you enter the complete password. Press the dial to confirm USR and PWD. NOTE: If you need to return to the previous editable field, for example from PWD fields back to USR fields, press ESC. To proceed to the next field, press the dial. System logs you into the Main menu of the module. Figure 11: Manual Login Screen Logging Off There are three ways to log off. Automatic logoff Occurs when the module interface has been idle for the amount of time defined in the user account settings. The timer feature is configured when a user account is created at the field panel. Manual logoff Select Logoff on the screen Prompts you to confirm logoff. Press ESC on the Main menu screen Prompts you to confirm logoff. NOTE: When you log off the module, the screen may go blank for approximately two seconds. Do the following to manually log off the PXM10S or PXM10T module. Figure 12: Logoff Menu

74 PXM10S/T Product Overview and Description Menu/Submenu Step Description Main Rotate DIAL to highlight Logoff. Press DIAL/OK to and select Logoff. Displays the Logoff submenu. Confirm Logoff Are you sure? Rotate DIAL to highlight Yes or No. Press DIAL/OK to make selection. Confirms logoff and returns to splash screen. NOTE: If you press ESC, you are prompted with the same Confirm Logoff screen. Figure 13: Confirm Logoff Submenu Navigation Menu Menu Overview Push DIAL scrolls vertically and press button select - OK ESC key returns to last bookmark/page or previous character location when inputting values INFO key activates additional information screen ALARM key activates unacknowledged alarm screen Main menu - alarms, display, monitor, settings, and logoff

75 PXM10S/T Product Overview and Description Menu Step Description DIAL Rotate DIAL counterclockwise or clockwise. Press DIAL/OK to select a function. When DIAL is rotated counterclockwise (CCW), the UP key actions/selections move backward. For alphanumeric values, the current value is decreased. When DIAL is rotated clockwise (CW), the DOWN key actions/selections move forward. For alphanumeric values, the current value is increased. In both instances, one click corresponds to single step change in selection or value. When DIAL/OK key is pressed, a trigger event occurs. Depending on the context, it can mean: selecting current option in list, accepting edited value, entering edit mode for editable fields, acknowledge alarm, toggling background color, etc. ESC Press ESC. Returns the control back to the last bookmarked location. When limit value is reached, pressing ESC has no effect. While in an operation, like editing a parameter value, press ESC to discard the changes and exit the edit mode. INFO Select an item by rotating the DIAL. Press INFO key. When INFO is pressed while a point is highlighted or a point in alarm is highlighted, detailed point information displays on a new screen. INFO key is disabled on the INFO screen. Looping with the INFO key is prohibited. ALARM Press ALARM key. Press ESC returns you to the last bookmarked screen. ALARM key is disabled on the ALARM screen. Looping with ALARM key is prohibited. Main Rotate DIAL to navigate up and down and select. Press DIAL/OK for selected task to transition to selected submenu. Title displays Main menu. Items are: Alarms, Points, Point Monitor, Logoff, and Settings. INFO key is non-functional in this menu. ESC key is non-functional in this menu. Alarms Application Menu Menu Overview Display submenu with: All Alarms, Unacknowledged Alarms Show All Alarm screen with correct title bar and filter Show Unacknowledged screen with correct title bar and filter Alarm Ack screen for APOGEE from any point list screen Alarm Ack screen for BACnet from any point list screen Activate Alarm LED to mirror alarm bell icon - off, on solid

76 PXM10S/T Product Overview and Description Menu Step Description All Alarms, Unacknowledged Alarms All Alarms Unacknowledged Rotate DIAL to select filter: All Alarms or Unacknowledged Alarms. Press DIAL/OK to accept selection. Rotate DIAL to navigate up and down the list of all points in alarm. Press DIAL/OK to accept selection and view Alarm screen if an alarm needs acknowledgment. If alarm is already acknowledged nothing happens. Press INFO button to view details of alarm condition. Rotate DIAL to navigate up and down the list of all unacknowledged points in alarm. Press DIAL/OK to accept selection and view Alarm Acknowledge screen. Press INFO to view details of alarm condition. Title displays Alarms menu. Line 1 displays All Alarms. Line 2 displays Unacknowledged Alarms. Title displays All Alarms submenu. Displays points in alarm in a list. Title displays Unacknowledged Alarms submenu. Displays points in unacknowledged alarm list. OK and INFO functions are operational only if you are logged in with sufficient privileges. ALARM key is disabled on this screen. Activate Alarm Monitor the ALARM key ALARM key is translucent and has a red LED beside the key. Alarm notification has four states: 1. LED OFF - no alarms present and no unacknowledged alarms are pending. 2. LED ON all alarms present and no unacknowledged alarms are pending. 3. LED Flash Fast at least one unacknowledged alarm is pending. 4. LED Flash Slow at least one unacknowledged normal is pending. Alarm Ack for APOGEE Alarm Ack for BACnet Press DIAL/OK to change status of alarm to acknowledged and return to previous screen. Press ESC to return to previous screen without acknowledging alarm. Press DIAL/OK to change status of alarm to acknowledged and return to previous screen. Press ESC to return to previous screen without acknowledging alarm. Point name is displayed as title. Confirm if you want to ACK the alarm. This option is only available for point(s) having alarms in an unacknowledged state. An affirmative response is interpreted as a confirmation to acknowledge all unacknowledged states. ALARM key is disabled on this screen. Point name is also displayed as title. Confirm if you want to ACK the alarm. This option is only available for point(s) having alarms in an unacknowledged state. An affirmative response is interpreted as a confirmation to acknowledge all unacknowledged states

77 PXM10S/T Product Overview and Description Points (Command and Release) Application Menu Menu Overview Show Point List screen with correct title bar and filter host field panel s onboard points only Point Command screen Release Point Priority screen for APOGEE Release Point Priority screen for BACnet Choose Action for selected point Menu Step Description Points Points Point Action Release Point Priority for BACnet Release Point Priority for APOGEE Rotate DIAL to navigate the list of all local points. Press DIAL/OK to go to the Point Action screen. Press INFO to view detailed properties of the selected point. Rotate DIAL to change point value. Press DIAL/OK to apply change and return to previous screen. Press ESC to return to previous screen without changing value. Rotate DIAL to select actions. Press DIAL/OK to go to the desired screen. Press ESC to return to previous screen. Rotate DIAL to change point priority. Press DIAL/OK to apply change and return to previous screen. Press ESC to return to previous screen without changing priority. Rotate DIAL to change point priority. Press DIAL/OK to apply change and return to previous screen. Press ESC to return to previous screen without changing priority. Title displays Points menu. Displays list of points. Title displays point name of the point being commanded. If it can t be displayed in full, it is truncated. Current value is displayed. Value to be edited is also displayed. For enumerated point types, the DIAL allows you to choose a new state. OK accepts the chosen value. ESC discards the changes and moves you to point list screen. For analog point types, enter the value using the same method as manual login. See Login Application Menu [ 79]. For BACnet you can choose the associated priority. Title displays Point Action submenu. Line 1 displays Command Point. Line 2 displays Release Point Priority. The title is the point name of the point being commanded. If it can t be displayed in full, it is truncated. Enumerated priority values are presented. DIAL changes enumerated values. OK releases the selected priority. The title is the point name of the point being commanded. If it can t be displayed in full, it is truncated. DIAL changes enumerated values. OK releases the selected priority

78 PXM10S/T Product Overview and Description Point Monitor Application Menu NOTE: This application and its sub-features are only available with the PXM10S module. Menu Overview Display submenu with: display, edit, and reset Show Display screen with correct title bar and filter with four-second updates Show Configure screen with correct title bar, filter, and toggle OK key Accept Reset command and remove all points from monitor list Menu Step Description Configure, reset, and display Configure Reset Rotate DIAL to highlight Point Monitor. Press DIAL/OK to execute a Point Monitor subtask display. Rotate DIAL to select the point to be configured. Press DIAL/OK to toggle the point selection in the monitor list. Press ESC to return to the Point Monitor. Rotate DIAL to select Confirm. Rotate DIAL to select Cancel. Press DIAL/OK to confirm or cancel the selected operation. Title displays Point Monitor menu. Subtasks are displayed as a list. One task displayed per line: - Configure - Reset - Display Title displays Edit Pt Monitor submenu. All points are displayed in a scrollable list. One point with its status is displayed per line. Status on this screen refers to whether or not the point is added to the monitor list. When a selected point has subpoints, the subpoint list is displayed and you choose points to monitor from subpoint list. ESC returns you to the host s field panel points list. When the limit for maximum points in monitor is reached, you cannot add more points to monitor. Even though the Point Monitor may be full, you may not have privileges to view points in monitor. You must reset the Point Monitor application to use it. Title displays Remove Monitor submenu. Confirms the selection. Once confirmed, all points in monitor are removed

79 PXM10S/T Product Overview and Description Menu Step Description Display Rotate DIAL to scroll up or down. Press ESC to stop. Title displays Monitor Display submenu. Displays monitored points as a list on canvas. Displays one point and its value per line.. Up to 10 points can be added to monitor. INFO and OK keys are disabled. ESC stops monitor and returns you to previous screen. DIAL allows you to scroll the monitor list. Auto scroll is supported, if necessary. Point Monitor displays, if started, keeps running even if you are auto-logged off due to timeout. If you are auto-logged out, press any key (except for rotating DIAL) to return to the splash screen. Login Application Menu Menu Overview Display splash screen with: logo, and revision strings Login screen with Automatic and Manual options Manual Login screen with user name, password, reset and submit Show Main menu when logging in, and splash screen when logging out Show splash screen options when logging out Logout user when auto logout timer is enabled Filter points based on user access group Filter applications based on user access group Hot Swap Menu Step Description Splash screen, logo, revision string Login Plug in the PXM10S or PXM10T module. Rotate DIAL to select the desired login method. Press DIAL/OK to accept the login method selected. Displays splash screen logo. Displays either PXM10S or PXM10T on the screen. The device Firmware Revision displays below the module logo. The field panel Firmware Revision displays below the Firmware Revision of the device. Cimetrics BACstac revision number. The title displays Login menu. Login options are: Automatic and Manual

80 PXM10S/T Product Overview and Description Menu Step Description Manual Login Rotate DIAL/OK and ESC keys to enter the User Name. Rotate DIAL to scroll through characters. Press DIAL/OK to accept current character and move to next character block. Press ESC to move to previous character. Press DIAL/OK twice to move to next field (or reach end of field). This indicates that the last presented text field is null. (Null terminating the string.) Repeat steps to enter Password. The title displays Manual Login submenu. Screen displays four items on two lines as follows: 1. (1) USR, (2) username text box of 4 characters 2. (3) PWD, (4) password text box of 15 characters Block cursor starts at first character position in username text box. After password has been entered, login is attempted. Manual Login screen is always U.S. English. Main menu Login using automatic or manual login options. See Navigation [ 74]. Login splash screen at Logout Logout using Main menu or remain idle for timeout. Title displays Login menu. Login options are: Automatic and Manual. Logout Idle Title displays Login menu. Login options are: Automatic and Manual. Filter points None Existing field panel user account settings. Filter applications None Existing field panel user account settings. Hot Swap Hot swap PXM10S or PXM10T module (Remove exiting PXM10 module and reinsert it or a different one.) Displays splash screen/logo. Displays either PXM10S or PXM10T on the screen. The device Firmware Revision displays below module logo. The field panel Firmware Revision displays below the Firmware Revision of the device. Displays Cimetrics BACstac revision number. Settings Application Menu Menu Overview Display submenu with: color, brightness and backlight timeout Show Color screen with current value and accept update NOTE: The Color feature is available only for the PXM10S module. Show Brightness screen with current value and accept update Show Timeout screen with current value and accept update

81 Unitary Equipment Controller Menu Step Description Brightness, color, and timeout Brightness Color Timeout Use DIAL, OK and ESC keys to navigate to this screen. Rotate DIAL to navigate up/down this menu and select. Press DIAL/OK to execute selected sub task. Rotate DIAL to adjust Brightness value. Press DIAL/OK to apply the value and return to the previous screen. Press ESC to discard changes and return to the previous screen. Rotate DIAL to toggle the backlight color between Blue and White. Press DIAL/OK to apply the color value and return to the previous screen. Press ESC to discard changes and return to the previous screen. Rotate DIAL to adjusttimeout value. Press DIAL/OK to apply the value, between 0 and 240 seconds, single point increments. Press ESC to discard changes and return to the previous screen. Title displays Settings menu. Tasks display as a list and the current selection is highlighted. The tasks are: Brightness, Color, and Timeout. Title displays Backlight Brightness submenu. Brightness value displays on the screen. Title displays Color submenu. Color value (WHITE/BLUE) displays on the screen. Title displays Backlight Timeout submenu. Backlight Timeout displays on the screen. Unit of measure is in seconds and does not display. Unitary Equipment Controller The Unitary Equipment Controller (UEC) is a BACnet MS/TP only controller (PXC- 16/24 hardware platform). Although intended primarily to be connected as an FLN device (shipped from the factory in FLNnode mode), the UEC can be switched to run in ALNnode mode and connected as an MS/TP ALN device. In which case the UEC behaves like an ALN device. When connected as an FLN device, the UEC minimizes proprietary ping communications and turns off proprietary global data replication. However, it continues to support Confirmed Private Transfer (CPT) on all proprietary APOGEE messages, and is recognized as a Siemens device. The UEC can reference external objects using either Device Specific Name or BACnet Encoded Name. Functionality of the UEC Ethernet port is limited to Telnet and FTP. NOTE: Newer models do not support Ethernet ports. The UEC supports the PXM10S and PXM10T controller mounted operator display modules. The UEC does not support HOA modules (PXA8-M, PXA16-M, PXA16-MR). Scheduling, trending, and alarming are limited to local objects. The following BIBBS are not supported: AE-N-E-B (External Algorithmic Alarming) T-VMT-E-B (External Trend) SCHED-E-B (External Schedule)

82 Unitary Equipment Controller NOTE: If a Host/Supervisory field panel references a UEC subpoint, the Host panel must be upgraded to Firmware Revision 2.8.6/3.2.2 or later. FLN Node Mode When the UEC is operating in FLNnode mode, it has the capability to monitor points from other devices, and recognize the point by device specific name, or BACnet encoded name. However a point log display should show only points that reside locally on the UEC. Some functions, depending on the exchange of proprietary messages, such as replication, and database download, are not available. BACnet Encoded names or device specific names must be used for referencing external objects. Only visible to the Web Server when defined as a FLN device. Operates on the FLN without replication. Cannot be programmed from an ALN device, if added as an FLN device. Recognized as a Siemens device. Exposes application number and default subpoint. Supports failure detection of the UEC by other nodes. Limited support of failure detection of other nodes by the UEC, only when defined as a node of interest. No global data such as BLN User account or State Text tables support. No database upload and download from Insight but database can be saved in panel flash memory. Proprietary messages generated using HMI are processed as usual. Proprietary messages received using comm port from Commissioning Tool (CT) processed as usual. Save, upload and download database information using Field Panel Web Server UI (FPWeb UI)and Siemens Launch Pad. PPCL Assist for programming over the network using FPWeb UI and Siemens Launch Pad. Field panel support for FIN Builder graphics with Firmware Revision and later. Support for totalization for analog and multistate points with Firmware Revision 3.4 and later. ALN Node Mode When the UEC is operating in ALNnode mode, it retains the capability to monitor points from other devices and recognizes the point by system name, device specific name, or BACnet encoded name. All functions depending on the exchange of proprietary messages, such as discovery, replication, and database download, are available. System name, device specific name and BACnet encoded names are supported for referencing external objects. Only visible to Commissioning Tool (CT) for editing and commissioning when defined as ALN device. Time is synchronized with the Insight workstation. In the event of a network failure, the UEC independently maintains control of the time and scheduling, trending, and alarming. An Integration FLN, with Integration Driver support for FPWeb allows FLNs to be viewed and modified from FPWeb UI in Kiosk mod

83 Unitary Equipment Controller Unitary Equipment Controller Specifications Dimensions (L W D) PXC Unitary Equipment Controller, 16 point, BACnet MS/TP PXC Unitary Equipment Controller, 24 point, BACnet MS/TP 10.7" 5.9" 2.45" (272 mm 150 mm 62 mm) 10.7" 5.9" 2.45" (272 mm 150 mm 62 mm) DIN rail (EN TH , steel) 1.38" 0.30" 0.04" (35 mm 7.5 mm 1 mm) Processor, Battery, and Memory Processor and Clock Speed Memory Serial EEPROM Battery backup of Synchronous Dynamic (SD) RAM (field replaceable) Battery backup of Real Time Clock BACnet MS/TP Automation Level Network (ALN) BACnet MS/TP Field Level Network (FLN) Human-Machine Interface (HMI) USB Device port (for non-smoke control applications only) Freescale MPC852T, 100 MHz 24 MB (16 MB SDRAM, 8 MB Flash ROM) 4 KB AA (LR6) 1.5 Volt Alkaline (non-rechargeable) 180 days (accumulated) Typical Accumulated Battery Life of Compact UEC: 16MB SDRAM Std (alkaline): 180 days Rooftop (Extended Temperature) Models: AA (LR6) 3.6 Volt Lithium (non-rechargeable) 330 days (accumulated) 10 years (32 F to 122 F (0 C to 50 C)) Coin cell (BR2032) 3 Volt lithium 9600 bps to Kbps, up to 10 nodes per MS/TP ALN 9600 bps to Kbps Three wire, full-duplex, asynchronous serial RS-232 compliant, 1200 bps to Kbps, 8-N- 1, no hardware flow control (Xon/Xoff supported). RJ-45 jack, 50 ft (16 m) max. cable length. Supports dial-in modem. Factory-set HMI Communication Speed 9600 bps USB 1.1 (12 Mbps) and 2.0 (480 Mbps), Type B female connector. Self-powered, does not use or supply USB power. Prior to June 2013 USB Host port (for ancillary smoke control applications only). Prior to June 2013 USB 1.0 (1.5 Mbps) and 1.1 (12 Mbps). NOTE: See the Configuration and Sizing Guidelines documentation for supported speeds per controller model. USB 1.0 (1.5 Mbps), 1.1 (12 Mbps), and 2.0 (480 Mbps), Type A female connector. USB unit loads (5V, 500 ma). USB 1.0 (1.5 Mbps) and 1.1 (12 Mbps), Type A female connector. NOTE: See the Configuration and Sizing Guidelines documentation for supported speeds per controller model

84 Unitary Equipment Controller Electrical Power Requirements Power Consumption (Maximum) A/D Resolution (analog in) D/A Resolution (analog out) AC Power and Digital Outputs 24 Vac ±20% 50/60 Hz Vac (18 VA on new 16 point models.) 16 bits 10 bits NEC Class 1 Power Limited Communication and all other I/O NEC Class 2 Digital Input Digital Output Analog Output Analog Output Dedicated Points Points Class 1 Relay Form-C (NO and NC contacts) 125 Vac, 4A 250 Vac, 2A Dedicated Points Points to 10 1 ma max. Resolution: 11 mv Initial Accuracy: ±2% of full range (32 F to 122 F (0 C to 50 C) ambient) Configurable Points Points 1-16 Contact Closure Sensing Dry Contact/Potential Free inputs only Digital Input (10 ms settling time) Supports counter inputs up to 20 Hz, minimum pulse duration 20 ms (open or closed) Configurable Points using an external relay Points to 24 Vdc, 22 ma max. Configurable Points, 0 to 10 Vdc Points to 10 1 ma max. Resolution: 11 mv Initial Accuracy: ±2% of full range (32 F to 122 F (0 C to 50 C) ambient) Configurable Points, 0 to 20 ma Points to Ω max. Resolution: 22 µa Initial Accuracy: ±2% of full range (32 F to 122 F (0 C to 50 C) ambient) Analog Input Configurable Points Points 1-16 Voltage (0-10 Vdc) Resolution: 2.2 mv Current (4-20 ma) Resolution: 4.4 µa 1K Ni 32 F (Siemens, JCI, DIN Ni 1K) Resolution: 0.05 C 1K Pt RTD (375 or F Resolution: 0.08 C (375), 0.13 C (385) 10K NTC Type 2 or Type 3 Thermistor Resolution: 0.02 C to 0.10 C 100K NTC Type 2 Thermistor Resolution: 0.14 C to 0.02 C

85 Unitary Equipment Controller Operating Environment Ambient operating environment Ambient operating temperature Relative Humidity Shipping and storage environment Mounting Surface Vibration Operate in a dry location, which is protected from exposure to salt spray or other corrosive elements. Exposure to flammable or explosive vapors must be prevented. 32 F to 122 F (0 C to 50 C) 5 to 95% rh non-condensing -40 F to 185 F (-40 C to 85 C) Direct equipment mount, building wall, or structural member CE Compliance Must be installed inside a metal enclosure rated at IP20 minimum Compliance to IEC 60721, Class 2M2 and 3M2 Protection to EN60529 IP 20 Agency Listings UL Agency Compliance UL916 PAZX (all models) UL916 PAZX7 (all models) FCC Compliance CFR47 Part 15, Subpart B, Class B Australian EMC Framework European EMC Directive (CE) European Low Voltage Directive (LVD)BACnet Testing Laboratories (BTL) Certified, Firmware Revision 3.0 and later Electrical Disturbance Testing Dips and Interrupts per EN Electrical Fast Transients (EFT) per EN kv signal, 2 kv AC power Electrical Surge Immunity per EN AC power: 2 kv common mode, 1 kv differential mode Electrostatic Discharge (ESD) RF Conducted Immunity RF Radiated Immunity per EN , 6 kv contact, 8 kv air discharge per EN 10V per EN 10V/m

86 Compact Series Smoke Control Application Requirements Unitary Equipment Controller Compact Series Smoke Control Application Requirements CAUTION The 115V or 230V PX Series Service Box is required for UL864 and NFPA92A compliant installations. For more information, see the PX Series Service Box Assemblies Installation Instructions ( ) or the Service Box Installation Instructions ( ). For non-ul864 and non-nfpa92a applications, any 24 Vac Class 2 transformer can be used. NOTE: For smoke control applications over BACnet/IP or Ethernet TCP/IP (P2), the field panel must be connected to the Automation Level Network (ALN) through an Ethernet switch that is UL Listed for Fire Signaling. ALN and FLN circuits are supervised. For smoke control applications, mount the PXC Compact inside a 19-inch or 34-inch PX Series enclosure (PXA-ENC19 or PXA-ENC34). For more information, see the 19" and 34" PX Series Enclosure Assemblies Installation Instructions ( ). Service Modem Kit ( ) is required for remote connection to the HMI of a PXC Compact running smoke control applications. The modem, serial cable, and surge suppressor must be installed inside the 19-inch or 34-inch PX Series enclosure with a Service Box. For modems used with smoke control applications: Modem Requirements The UL864 Listed surge protector ( ) is required. Devices connected between the USB port and the UL Listed surge protector must be located within the same room. A USB-to-RS-232 adaptor may be needed for UL Listed modems or UL Listed printers that are not configured for USB communication. The modem may be located inside the PX Series enclosure

87 Compact Series Smoke Control Application Requirements Example ALN Configuration for Smoke Control Applications Example ALN Configuration for Smoke Control Applications The RS-485 ALN does not have the same restrictions as the Ethernet ALN for smoke control. Namely, Ethernet requires UL listed switches and routers. The following figure displays a possible ALN configuration for smoke control. Figure 14: Example ALN Configuration for Smoke Control

88 Service Information Electrostatic Discharge Service Information This section describes corrective measures you can take if you encounter a problem with a PXC Compact Series controller. NOTE: When removing power to a controller to perform maintenance or service, make sure that the person in charge of the facility is aware of this and that appropriate steps are taken to keep the building in control. To view the status of the PXC Compact and to call up reports for troubleshooting, you can use an operator's terminal and the operator interface or an Insight workstation. For more information, see the following documentation: APOGEE P2 ALN Field Panel User's Manual ( ) or the APOGEE BACnet ALN Field Panel User's Manual ( ) ( or ). Insight Revision 3.x Documentation. To view this documentation, see the Insight Online Documentation window, which you can access from the Insight Main Menu or the Insight program group. It is good practice to back up the PXC Compact database routinely and whenever changes are made to the database or new equipment is added. While performing the troubleshooting procedures outlined in this manual, you may wish to refer to the APOGEE Wiring Guidelines for Field Panels and Equipment Controllers ( ). Electrostatic Discharge An electrostatic discharge (ESD) wrist strap is generally not required when installing or servicing a PXC Compact. However, if the field panel is installed in a very dry environment where a high static discharge is likely, an ESD wrist strap is recommended. Ordering Replacement Parts If a PXC Compact Series is not operating correctly, it should be replaced. Replacing the Batteries CAUTION AC power must be ON during battery replacement. Otherwise, data loss will occur. NOTE: The battery is taped in the tray to secure it during shipping. The tape does not need to be replaced. 1. Pull the release tab on the curved side of the battery compartment cover. 2. Remove the battery compartment cover

89 Service Information Reinstalling the Mounting Tabs 3. Remove the failed battery, and place a fresh battery in the tray with the positive (+) and negative (-) ends properly aligned. For the AA battery, make sure the positive (+) and negative (-) ends are properly aligned. For the coin cell battery, make sure the positive (+) side is facing up. 4. Replace the battery compartment cover. Figure 15: Replacing the AA Battery. Reinstalling the Mounting Tabs Do the following to reinstall a DIN mounting tab: 1. Place the wire spring clip into the pocket in the channel for the mounting tab. 2. Make sure the mounting tab is face down. 3. Working from the center (inside) of the base, slide the mounting tab into the channel. (See the following figure.) NOTE: The end with the screw hole slides into the channel first

90 Service Information Troubleshooting Compact Field Panels Figure 16: Reinstalling a DIN Mounting Tab. Troubleshooting Compact Field Panels Find the symptom below that best describes the problem and perform the corrective action that follows. Analog Input and Analog Output Points Analog Input/Output points are not reading as expected. 1. Verify that all slope/intercept entries are correct. 2. Verify that the sensor is functioning properly. Replace the sensor, if necessary. LAI point does not function properly or displays as failed (*F*). 1. Verify that the field input device is within range. 2. Verify that points are properly terminated on the termination board or module. 3. Verify that the correct voltage is supplied to the device, as in a 4 to 20 ma device. LAO point does not function properly or displays as failed (*F*). The output does not change when commanded. 1. Verify that the device connected to the point is functioning properly and is not shorted out. 2. Verify that points are properly terminated on the termination board or module. 3. Verify that the correct voltage is supplied to the device

91 Service Information Troubleshooting Compact Field Panels BATT LOW LED The BATT LOW LED is on or the battery low warning is displayed at the operator's terminal. CAUTION If you do not have a current backup, save the database before continuing. 1. Check that the mylar insert was removed from the AA (LR6) battery holder. 2. Check for polarity (+ to +) and (- to -). 3. Check that the battery is properly seated in the battery holder. 4. Replace the battery. BATT LOW LED remains on after the battery has been replaced. Verify that the correct type of battery is being used. The LOW BATT LED remains ON if an alkaline battery is used in PXC Compact models with extended temperature range operation. CAUTION Only use a 3.6 Volt lithium battery in PXC Compact models with extended temperature range operation. Only use a 1.5 Volt alkaline battery in standard PXC Compact models. The 3.6 Volt lithium battery is designed to operate at both high and low temperature extremes, and it provides a long service life in an extended temperature environment. The 1.5 Volt alkaline battery is not guaranteed to provide backup protection in models with extended temperature range operation, even if the controller is operating in a room-temperature environment. If a 3.6 Volt lithium battery is used in standard PXC Compact models, the battery quickly discharges and provides much less backup protection than a 1.5 Volt alkaline battery

92 Service Information Troubleshooting Compact Field Panels RUN LED The RUN LED is on solid. The RUN LED is steadily lit during normal operation to indicate that 24 Vac power is ON and the application firmware has booted. The RUN LED is ON. No communication is possible with the HMI port. 1. Verify that HMI port and your terminal are set to the same communication speed. The factory-default communication speed of the PXC-16 and PXC-24 HMI port is 9600 bps. The factory-default communication speed of the PXC-36 HMI port is Kbps. 2. Verify that the cable from the field panel to the operator's terminal is properly connected at both ends. 3. Open the enclosure and verify that both ends of the HMI extension cable are properly connected. 4. Unplug the extension cable and plug directly into HMI port. The RUN LED is off. 1. Verify that power is connected. 2. Check the service box and transformer ON switches. 3. If power is ON, verify that the application firmware has booted. 4. Measure voltage on 24V~ and (Terminals 1 and 2). TX and RX LEDs The TX and RX LEDs are off or on solid. No communication over the ALN trunk. 1. Verify that the ALN trunk is securely connected to the ALN port on the Field Panel. 2. On a two-wire ALN trunk, verify that the shield is connected to the enclosure ground and not the S-pin (may also be marked as a reference pin [add image here]). 3. Verify the field panel address and communication speed. 4. Verify that the extended ALN trunk is operating

93 Service Information Troubleshooting Compact Field Panels Communication Points cannot be read or commanded from the operator's terminal. 1. Verify that failed points have been properly addressed. 2. Verify the status of the points at the operator's terminal. Verify that points are not under Operator priority. Communication issues begin after a field panel is installed. 1. If the new field panel is installed on an ALN with two-wire shielded twisted pair cable, verify that the Shield conductor is connected to the earth ground. 2. Verify that the S-pin (may also be marked with a reference pin [add image here]) is not connected to the cable shield or earth ground. 3. Ensure the power plug ground terminal is connected to an earth ground. 4. Verify that the network cable shield is connected to the earth ground connection on one end only. No communication over the FLN trunk. 1. Verify the FLN address and communication speed. 2. Verify the FLN trunk is connected to the correct FLN port. Display NOTE: In BACnet/IP or Ethernet TCP/IP (P2) ALN mode, RS-485 parameters are displayed and may be entered as a selection. However, when in RS-485 ALN mode, BACnet/IP or Ethernet TCP/IP (P2) ALN parameters are not an available selection. PXC Compact defaults to Ethernet ALN but continues to display parameters for RS-485 P2 ALN. 1. Generate the Field Panel Configuration report by entering the following at the HMI: S, H, F, D (System, Hardware, Fieldpanels, Display). 2. Verify the field panel settings on the Field Panel Configuration report (such as the ALN baud rate for P2 ALN or an IP address for Ethernet TCP/IP ALN). 3. Verify the current ALN type on the Field Panel Configuration report. NOTE: Changing the ALN type coldstarts the field panel. 4. If needed, change the ALN type by entering the following at the HMI: S, H, F, C, E, M (System, Hardware, Fieldpanels, Config, nettype, Modify). (S, H, F, C, S, T for Firmware Revision and earlier.)

94 Service Information Troubleshooting the TX-I/O Island Bus Errors The error E3600(0x0E10) - Invalid FLN number displays when adding a point to a PXC-16 or PXC-24 with FLN support. Since the PXC-16 and PXC-24 support only one FLN port, only 0 or 1 can be entered for the FLN number. PXC Compact program and database are not down-line loading properly. Verify that the Insight software is at least Revision 3.7 (PXC-16 and PXC-24) or 3.10 (PXC-36). Troubleshooting the TX-I/O Island Bus The 24 Vac LED on the TX-I/O Power Supply or the P1 Bus Interface Module (BIM) is OFF. 1. Check for 24 Vac input. 2. Replace the fuse (4A, 5 20 mm, 250V, medium-acting, ceramic fuse). All points on the TX-I/O island bus are failed. 1. Verify all three signals, System Neutral ( ), Communication Data (CD), and Communication Supply (CS) are connected throughout the entire TX-I/O island bus. The I/O module status LED (under the address key) is flashing or the I/O point status LED is flashing on an open point. All points are operating normally. CAUTION The TX-I/O island bus must extend from the male bus connector of the TX-I/O Power Supply or Bus Connection Module. The TX-I/O Power Supply and Bus Connection Module only supply 24 Vac to I/O modules on the male bus connector. I/O modules on the female bus connector of the TX-I/O Power Supply or Bus Connection Module do not receive power and have a fault condition. A point is failed or the point type displayed does not correspond to the point type defined in the database. 1. Using the job drawing or TX-I/O Island Bus layout sheet, verify that the address keys are in the correct module. 2. Reset the module to factory settings. Verify that the module is supplied with 24 Vdc. Remove keys that are in the wrong module

95 Service Information Troubleshooting the TX-I/O Island Bus Insert and then remove the reset key. Cycle power to the module. Insert the correct address key. A current point on a Super Universal Module is failed. Verify that the sensor supply wire is connected to the DC terminal (3, 11, 20, or 28). Modules begin oscillating; island bus communication shuts down Reset: Switch off the 24 Vac supply of the PXC Modular, PXC-36, or P1 BIM. Relays and current outputs have a power consumption that depends on the supply voltage (module supply 24 Vdc). The power consumption of an I/O island will rise when all relays are active and all current outputs deliver 20 ma. This causes a drop in the supply voltage. If too many of these outputs are configured, the voltage may drop too much so that all modules switch off. When the voltage recovers, the modules switch on again, and so forth, 1 to 2 times per second. In this case, the PXC Modular, PXC-36, or P1 BIM reacts by switching off the communication after 5 cycles (shortcut between CD and CS, the COM LED will light brightly). Troubleshooting the LCD Panel Indications NOTE: Physical points on an I/O module hold the last configuration until characterized with a different type--even when the logical point is deleted from the database. Use the reset key to remove the physical point configuration from all points on an I/O module. When troubleshooting an I/O module that does not have an LCD panel or manual override switches, you may wish to temporarily install a TXM1.8X-ML or TXM1.8U-ML plug-in module. This allows you to quickly review the module status and error indications. Do the following to temporarily replace the plug-in module: 1. Remove the address key from the I/O module. 2. Remove the plug-in module from its terminal base. 3. Insert the TXM1.8X-ML or TXM1.8U-ML plug-in module. 4. Insert the reset key. All of the module status LEDs briefly light to indicate the temporary plug-in module has been reset. 5. Remove the reset key and reinsert the address key. 6. Troubleshoot using the LCD panel indications. 7. When done, remove the TXM1.8X-ML or TXM1.8U-ML plug-in module. 8. Reinsert the original plug-in module and its address key

96 Service Information Troubleshooting the TX-I/O Island Bus LCD Panel Indications. Symbol Status Indicator Check Incorrect point type The point type displayed does not correspond to the point type defined in the database. Using the job drawing or field panel layout sheet, verify that the address keys are in the correct module. Display is OFF or Display is ON, but communications are failed Insufficient DC power. also check TX-I/O Power Supply LED ( ) is bright green. Ensure CS and Connection Module (BCM). are connected to the Bus Ensure CS/ at the BCM is within 0.5 Vdc of CS/ at the Power Supply. The wire length may have attenuated the DC power. Ensure the module diagnostics report is normal. Field device supply ( also check ) is missing or very low. The field device supply LED on the TX-I/O Power Supply (24V~) or Bus Connection Module ( ) are bright green. Point is configured as an output signal and no field device supply is available. Is a TX-I/O module connected to the wrong side of the Power Supply or Bus Connection Module? The TX-I/O island bus must extend from the male bus connector of the Power Supply or Bus Connection Module. Is the field device supply LED OFF? If so: The 4A replaceable fuse may be blown. The field device supply may be off. Wires may be disconnected. Is the field device supply LED dimly lit? The field device supply may be too low. Is a TX-I/O module connected to the wrong side of the Power Supply or Bus Connection Module? The TX-I/O island bus must extend from the male bus connector of the Power Supply or Bus Connection Module. Is the field device supply LED OFF? If so: The 4A replaceable fuse may be blown. The field device supply may be off. Wires may be disconnected. Is the field device supply LED dimly lit? The field device supply may be too low. Invalid process value (current output) Ensure the output current loop is intact. The? symbol has higher priority than the! symbol. No sensor (current input) Ensure the sensor power wire is landed on the sensor power terminals of an 8X module (3, 11, 20, or 28) and not on field device supply terminals (7, 15, 24, or 32) of 8U or 8X modules. Verify the external wire at the sensor. An internal sensor wire may have a break. Value above range limit NTC resistance is too low (temperature over range). RTD resistance is too high (temperature over range). The voltage or current input is too high

97 Service Information Troubleshooting the TX-I/O Island Bus LCD Panel Indications. Symbol Status Indicator Check Value below range limit NTC resistance is too high (temperature under range) or there is an open circuit. RTD resistance is too low (temperature under range). The voltage or current input is too low. Open circuit (NTC, RTD, voltage) Check for an open wire or failed sensor. Not available on current, NTC or digital inputs or outputs. Short circuit (NTC, RTD) Check for a shorted wire or failed sensor. Not available on current, voltage or digital inputs or outputs. Point type not supported in manual override Displays when pressing the override button on an input. The LED indicates the value or state of the input. Inactive point Point is unconfigured; the field device supply is valid Temporarily displayed during the normal power-up sequence. Normal display for unconfigured points. Resetting an I/O Module to Factory Settings Use this procedure in the following situations: If an I/O module was previously configured with a different address key or a different point database, such as a different sensor type. You want to force the PXC Modular, PXC-36, or P1 BIM to reconfigure a module. Do the following to reset a module to the factory settings: 1. Verify that the module is supplied with 24 Vdc. 2. Remove the address key. The module's status LED starts dual-pulsing. 3. Insert the reset key. All of the module status LEDs briefly light to indicate the module has been reset. 4. Remove the reset key. 5. Cycle power to the module. 6. Reinsert the address key. After the reset, the modules operate with the factory default function for each I/O point. Any previous local override settings are deleted

98 Service Information Troubleshooting the TX-I/O Island Bus Replacing a TX-I/O Plug-in Module NOTE: If reusing an I/O module, reset the module to factory settings before you begin. The plug-in module of a TX-I/O module assembly can be replaced at any time by the same or a compatible I/O module type, even while the system is running. 1. Swivel the address key outward to switch off the load to the I/O module. Leave the base of the key plugged into the terminal base. 2. Remove the plug-in module from its terminal base. 3. Insert the new plug-in module. 4. Swivel the address key back into position. As soon as the new module starts communicating with the PXC Modular, PXC-36, or P1 BIM, it is configured according to the module address and starts operation shortly afterward. Replacing a TX-I/O Module Assembly NOTE: If reusing an I/O module, reset the module to factory settings before you begin. NOTE: When replacing a complete TX-I/O module assembly, the adjacent plug-in module on the male bus connector must first be removed from its terminal base. Otherwise, the module assembly catches on the bus connector. Figure 17: TX-I/O Module Removal