CAS-2700-44 SEC (Serial) Protocol for Mitsubishi UPS Modbus (RTU and TCP) and BACnet and HTML Gateway Description The SEC protocol can be used to connect to suitably enabled UPS s manufactured by Mitsubshi. This is a serial protocol using RS232. The protocol is nodeless, so only one UPS can be connected to each port of the gateway. The Gateway serves data from the Mitsubishi UPS as Modbus (RTU or TCP), BACnet, or Web (REST XML, JSON, CSV). The Gateway supports all of these options simultaneously. Use the data you want and ignore the others. The Gateway connects to the UPS, reads data and stores it internally. When a remote system requests data, this data is served in a form that is appropriate to the requesting protocol. In the event that the connection to the UPS controller is lost, or data cannot be read, the gateway can signal this to the remote data client. The gateway requires minimal configuration and can be considered a plug and play component of a system, in that it is ready to operate out of the box with the default configuration. Specifications UL and ULc approved 10/100BaseT with RJ-45 connector 1x RS232 Port 1x RS485 Port (Different Models have additional ports) 2MBytes flash memory, 8MBytes of SDRAM Power: 5-24VDC Operating Temperature: 0 to 70 C Dimensions: 4.2" x 3.25" x 1" LEDs: Link, Speed/Data, Power Page 1 of 7
Max Nodes Supported Gateway Mode Nodes Comments Client 1 Only 1 UPS per connection Server 0 Not supported or documented. Connection Information - Port 1: UPS Ports (Port 1 can only be used for the UPS if it is not being used for ModbusRTU) Connection type: EIA232 (RS232) Baud Rates: Driver Supports : 1200,2400,4800, 9600; 19200Baud Data Bits: Driver Supports : 7,8 Stop Bits: Driver Supports : 1,2 Parity: Hardware interface: Multidrop Capability Driver Supports : Odd, Even, None N/A No Connection Information - Port 0: Modbus RTU Server Port (May be used for Modbus if this port is not used to connect to a UPS) Connection type: RS485 (Jumper change to RS232) Baud Rates: 9600; 19200Baud Data Bits: 8 Stop Bits: 1 Parity: None Hardware interface: N/A Multidrop Capability Yes Page 2 of 7
Devices Supported The CAS2700-44 supports configuration for connecting to the following Mitsubishi UPS systems: - 7011A - 2033C - 2033D - 9800AE - 9900A - 9900B - 9900C - 1100AB Devices Tested Device UPS Model DP-A12-1-OK 9900B Tested (FACTORY, SITE) Tested Factory Tested Site Page 3 of 7
Connection configurations Page 4 of 7
Driver Operation The driver can be configured to execute any of the commands in the supported function list. The data sent is stored internally in the Gateway and is made available to other protocols (Modbus RTU, Modbus TCP, BACnet IP and HTML). The frequency with each data set (see supported function list) is read is configurable. The driver retries on errors or timeouts. If the data cannot be read then after some configurable time it is marked as out of service. Configuration Via Web Page. Configure IP settings, Node ID s, Baud Rate and other parameters. Users can specify following: Client Mitsubishi UPS: Device Type, Data Points, Baud, Parity, Data bits, Stop bits Server ModbusTCP: ModbusRTU: BACnet: Node_ID, Port Node_ID, Baud, Parity, Data bits, Stop bits Device instance number, Device name, Port. Exception Handling If communications to the UPS are lost, then after some (configurable) time, the data values can all be set to zero, -1 or some other configurable value. This method allows the consumers of the data to know, if the values are valid. Communications functions Supported functions Not all SEC communication functions are supported. Most that report status info are provided. Those used to configure the unit are not included. Please review this list in determining whether this driver is fit for your purpose. Not all data points are available on all UPS s. Mitsubishi publish a document that details which variables are available per model. COMMAND NOM UPS Nominal Values DATA Nominal Input Voltage, Nominal Input Frequency, Nominal Output Voltage, Nominal Output Frequency, Nominal VA Rating, Nominal Output Power, Low Battery Time, Audible Alarm, Low Voltage Transfer Point, High Voltage Transfer Point, Battery Installed Date, Nominal Battery Life ST1 Status group 1 (Battery) Page 5 of 7
Battery Condition, Battery Status, Battery Charge, Seconds on Battery, Estimated Minutes, Estimated Charge, Battery Voltage, Battery Current, Battery Temperature ST2 Status group 2 (Input) Input Line Bads, Input Num Lines, Input Frequency 1, Input Voltage 1, Input Current 1, Input Power 1, Input Frequency 2, Input Voltage 2, Input Current 2, Input Power 2, Input Frequency 3, Input Voltage 3, Input Current 3, Input Power 3 ST3 Status group 3 (Output) Output Source, Output Frequency, Output Num Lines, Output Voltage 1, Output Current 1, Output Power 1, Output Load 1, Output Voltage 2, Output Current 2, Output Power 2, Output Load 2, Output Voltage 3, Output Current 3, Output Power 3, Output Load 3 ST4 Status group 4 (Bypass) Bypass Frequency, Bypass Num Lines, Bypass Voltage 1, Bypass Current 1, Bypass Power 1, Bypass Voltage 2, Bypass Current 2, Bypass Power 2, Bypass Voltage 3, Bypass Current 3, Bypass Power 3 ST5 Status group 5 (Alarm) Alarm Temperature, Alarm Input Bad, Alarm Output Bad, Alarm Overload, Alarm Bypass Bad, Alarm Output Off, Alarm UPS Shutdown, Alarm Charger Failure, Alarm System Off, Alarm Fan Failure, Alarm Fuse Failure, Alarm General Fault, Alarm Awaiting Power, Alarm Shutdown Pending, Alarm Shutdown Imminent The driver will not send the next message until a response has been received from the previous or until a timeout has expired. Support This driver was developed by Chipkin Automation Systems (CAS). CAS are proud to provide support for the driver. For support please call CAS at (866) 383-1657. Page 6 of 7
Revision History For Driver Doc. Date Resp Comment mat Ver. Rev. 18 Dec 2014 ACF 0.11 0 Created Page 7 of 7