TEST REPORT EN Alarm systems Intrusion systems Part 6: Power supplies

Transcription

1 age 1 of 44 Report No MIN-001 TEST REORT EN Alarm systems Intrusion systems art 6: ower supplies Report Reference No.... : Compiled by (+ signature)... : Approved by (+ signature)... : MIN-001 Steve Lein Chris Rash Date of issue... : January 7, 2013 CB Testing Laboratory... : Intertek Testing Services NA, Inc. Address... : 7250 Hudson Blvd, Suite 100 Oakdale, MN USA... Testing location/procedure... : CBTL SMT TM Address... : Applicant s name... : Address... : Test specification: As above aradox Security Systems Ltd. Standard... : EN : 2008 Test procedure... : Non-standard test method..: Test Report Form No.... : TRF Originator... : 780 boul. Industriel Est Saint Eustache, QC J7R 5V3, Canada IEC Test Report Format EN50131_6A IMQ Master TRF... : Dated Copyright 2004 IEC System for Conformity Testing and Certification of Electrical Equipment (IECEE), Geneva, Switzerland. All rights reserved. This publication may be reproduced in whole or in part for non-commercial purposes as long as the IECEE is acknowledged as copyright owner and source of the material. IECEE takes no responsibility for and will not assume liability for damages resulting from the reader's interpretation of the reproduced material due to its placement and context. Test item description... : Trade Mark... : Manufacturer... : Model/Type reference... : EVO 192 ower Supply, used with Digiplex EVO High Security and Access System aradox aradox Security Systems Ltd. EVO 192 board, TR40/16/18 Transformer, LC-RD1217 Valve Regulated Lead-Acid Battery

2 age 2 of 44 Report No MIN-001 Ratings... : EVO 192: AC ower: 16 Vac, 40 VA, Hz Battery: 12 Vdc, 7Ah minimum (17Ah used for testing) TR40/16/18 Transformer: Input Voltage: 230 Vac, 50 Hz, Output Voltage: 16 Vac, 2.2A and 18 Vac, 2.0A Copy of marking plate: Summary of testing: 7.2 Redeuced Functional Test 7.3 S Rating 7.6 Signalling: Loss of ES 7.7 Signalling: Storage Device Low Voltage 7.8 Signalling: Storage Device - Failure 7.9 Signalling: Low Output Voltage 7.10 Signalling: ower Unit Failure 7.11 Signalling: ower Unit Failure SD Charging 7.13 SD Recharging 7.17 Deep Discharge rotection 7.18 Automatic Changeover to AS 7.23 Environmental and EMC Test item particulars... : Classification of installation and use... : Supply Connection... :... : Security Grade 3, Environmental Class II TR40/16/Transformer: 230Vac, 50 Hz EVO 192: AC ower: 16 Vac, 40 VA, Hz Battery: 12 Vdc, 17Ah ossible test case verdicts: - test case does not apply to the test object... : - test object does meet the requirement... : (ass)

3 age 3 of 44 Report No MIN test object does not meet the requirement... : F(Fail) Testing... : Date of receipt of test item... : 2012-September-07 Date (s) of performance of tests... : 2012-October-2 to 2012-November-28 Sample ID Description/Model Number Serial Number MIN (system 1) TR40/16/18 AC Transformer MIN (system 1) LC-RD1217 Rechargeable Lead-Acid Battery (system 1) EVO 192 Control anel 0501FE05 MIN (system 2) TR40/16/18 AC Transformer MIN (system 2) LC-RD1217 Rechargeable Lead-Acid Battery (system 2) EVO 192 Control anel 0501FC15 MIN (system 3) TR40/16/18 AC Transformer MIN (system 3) LC-RD1217 Rechargeable Lead-Acid Battery (system 3) EVO 192 Control anel 0501FC0F General remarks: The test results presented in this report relate only to the object tested. This report shall not be reproduced, except in full, without the written approval of the Issuing testing laboratory. "(see Enclosure #)" refers to additional information appended to the report. "(see appended table)" refers to a table appended to the report. Throughout this report a point is used as the decimal separator. Following abbreviations are used: - AS: Alternative ower Source; - CIE: Control and Indicating Equipment; - ES: External ower Source; - IAS: Intruder Alarm System; - S: rime ower Source; - S : ower Supply; - U : ower Unit; - SD : Storage Device. General product information: ower Supply for use with aradox Digiplex EVO High Security Access Systems. The EVO system uses multiple junction boxes to house the power supplies and system modules to control keypads, doors, access/egress panels, and zone alarm points. The EVO power supply box contains a back up battery and 230VAC input transformer, and a separate box contains the EVO Control anel with system output.

4 age 4 of 44 Report No MIN Functional requirements 4.1 General The S shall supply power to the components of the I&HAS continuously. There are three types of S, which are independent of security grade. These types are illustrated in Figure 1. The S types are defined in EN Storage devices required to meet the I&HAS standby requirements as specified in EN may be distributed in more than one S. Depending upon the security grade and S type, the S shall have the functionality as defined in Table 1. If a function is provided that is optional for a particular grade and a claim of compliance is made, it shall meet the applicable requirements for the grade for which compliance is claimed. 4.2 Monitoring of S The S shall generate fault signals or messages for communication to the CIE according to Table 2. Monitoring signals or messages shall be fail safe such that total loss of function of the S will be recognised as a fault condition by the I&HAS Loss of ES A loss of ES condition shall be detected within 1 s. When the ES has been continuously disconnected for a minimum of 1 s and a maximum of 60 s, an ES fault signal or message shall be generated. After a loss of ES, when the ES is restored the re-connection condition shall be detected within 1 s. When the ES has been continuously reconnected for a minimum of 1 s and a maximum of 60 s an ES fault signal or message shall be removed Storage Device Low Voltage The voltage of the storage device shall be monitored to detect an SD low voltage condition. For S types A and B: An AS Fault signal or message shall be generated according to Table 2 and within the maximum time periods defined in Table 3, when the voltage of the SD falls below a value as specified by the S manufacturer. Type A ower Supply Storage devices are distributed in more than one S Security Grade 3, Type A S See also clause 7.6 System/anel; AC Failure message generated Message is removed See also clause 7.7 Meets tables 2 & 3 System/anel; Battery Failure message is generated

5 age 5 of 44 Report No MIN-004 An AS Fault signal or message shall be removed according to Table 2 and within the maximum time periods defined in Table 3, when the voltage of the SD rises above a value specified by the S manufacturer. Meets tables 2 & 3 For S type C: Type A power supply A storage device low voltage fault signal or message shall be generated within the maximum time periods defined in Table 3, before the SD reaches a condition such that it is unable to provide its rated output for longer than a minimum of 30 days. A storage device low voltage fault signal or message shall be removed within 10 s according to Table 2, when the voltage of the SD rises above the low value specified by the S manufacturer e.g. following replacement of the battery. For all S types, the S manufacturer shall declare in his documentation the voltage of the SD that will generate this fault signal or message Storage Device Failure For S type A, a SD failure condition shall be detected within 24 h of failure of the SD. An AS Fault signal or message shall be generated within 10 s of detection of SD failure. See also clause 7.8 System/anel; Battery Failure message is generated. Examples of methods deemed suitable to determine a storage device failure condition are given in Annex A. The AS Fault signal or message shall be removed within 10 s of detection of a normal storage device condition. If the S is designed to be connected to two or more storage devices in a parallel configuration in accordance with the guidance of the SD manufacturer, they shall be monitored as S is connected to only one separate storage devices. An AS Fault signal or storage device message shall be generated upon detection of failure for any one device. The AS fault signal or message shall be removed only when all devices no longer show a failure condition. These tests shall only be applied when the ES is available. Following disconnection and reconnection of the ES, this test may be delayed for up to 24 h to enable recharge of the SD Low Output Voltage For S types A and B, Grades 3 and 4, a ower Output Fault signal or message shall be generated within 10 s of a low output voltage occurring on one or more independent power outputs e.g. due to failure in the power supply or intervention of an output protection device. See also Clause 7.9, and 7.7 Output voltage is tied to battery voltage.

6 age 6 of 44 Report No MIN-004 The ower Output Fault signal or message shall be removed within 10 s of the voltage on all independent power outputs rising above the minimum power output voltage ower Unit Failure When the ES is present, for S types A and B, Grades 3 and 4, the U shall be monitored to See also clause 7.10 detect if it can no longer provide the rated voltage to the independent power outputs from the ES. When the ES is present, for S type A, Grades 3 and 4, the U shall be monitored to detect if it can no longer recharge the SD. A ower Output Fault signal or message shall be System/anel; AC Failure generated within 10 s of either of these conditions message is generated occuring. The ower Output Fault signal or message shall be removed within 10 s of the restoration of the normal operation of the U Remote Test S type A at Grade 4 shall have means to receive a signal or message to trigger the S internal tests of Storage Device Failure. The resulting test sequence shall not prevent the S from operating in accordance with Tables 1 and 2. The S shall acknowledge receipt of the remote test request within 10 s of receipt of the remote test request. If no dedicated acknowledge facility is available, the AS Fault signal or message shall be used to communicate the remote test request acknowledgement. When the test is initiated, the S shall not remain in test mode for a period in excess of 60 s. If the result of the test is a pass, the AS Fault signal or message shall be removed within 60 s of receipt of the remote test request. If the result of the test is a fail, the AS Fault signal or message shall remain present. Equipment is not security grade AS Capability A S types A and B shall be capable of continuously supplying its rated output to the I&HAS in the event of interruption of the ES. The S manufacturer shall specify the minimum and maximum storage device capacity that can be used with the S The S manufacturer shall provide sufficient information to enable calculation of the minimum time period that the S can continuously supply its rated output when fitted with a range of storage devices. Battery backup provided Manufacturer supplies the storage device. Capacity provided in documentation Current draw of power supplies provided in documentation

7 age 7 of 44 Report No MIN Recharging for S type A When fitted with a storage device of capacity as defined by the S manufacturer, the power supply shall be capable of recharging the storage device to 80 % of this storage device capacity following discharge to the minimum level in accordance with The storage device shall be automatically recharged from the ES within the maximum recharge periods as specified in EN The S shall be capable of supplying its rated output continuously during recharge of the storage device. The charging characteristics used by the S to recharge the SD shall remain within the limits recommended by the SD manufacturer. A Grade 4 S shall ensure that during float charging, the charging characteristics are within the SD manufacturer s specifications for the range of SD temperatures reached for the environmental class. See also clause 7.13 See also clause 7.13 See also clause 7.13 Equipment is not security grade Over-voltage rotection To prevent damage being caused to other I&HAS components due to failure of any single S component, S Grades 3 and 4 shall include protection to ensure that the voltage at any independent power output does not exceed 125 % of the maximum power output voltage. Over voltage protection set at 15.5 Volts, which does not exceed 125% of the maximum power output voltage. 4.6 Short Circuit rotection Each independent power output shall be protected against short circuit in the connected load. Following removal of the short circuit and reset of any protection device, all independent power outputs shall continue to operate normally. A short circuit in the load connected to any independent power output shall not reduce the functionality of any other independent output. A short circuit in the load connected to any independent power output shall not reduce the functionality of any other independent output. Any transients that are generated during operation of the protection shall meet the requirements of No multiple independent power outputs 4.7 Overload rotection Each independent power output shall be protected against overload condition in the connected load. No multiple independent power outputs

8 age 8 of 44 Report No MIN-004 Following removal of the overload and reset of any protection device, all independent power outputs shall continue to operate normally. An overload condition on any independent power output shall not reduce the functionality of any other independent output. Any transients that are generated during operation of the protection shall meet the requirements of Deep Discharge rotection When deep discharge of a storage device may cause damage to the storage device, protection shall be provided in S for Grades 3 and 4. The S manufacturer shall declare the voltage of the SD below which this protection shall operate and this shall be less than the minimum power output voltage. Deep-Discharge protection provided for S at 7.9 V (per manufacturer) See also clause Automatic changeover to AS Any transients that are generated during the changeover period between ES and AS operation shall meet the requirements of See also clause Ripple For S with dc outputs, the peak to peak ripple content of the voltage at any independent power output shall be as specified by the S manufacturer and shall not exceed 5 % of the maximum power output voltage. See also clauses 7.2, 7.3, and Environmental TDS. Maximum voltage is 14VDC. Maximum allowed ripple is 700 mv Tamper Security Where the S is housed with one or more components of an I&HAS, the tamper security requirement of the S shall be that of those components. Where the S is housed in a separate enclosure, the enclosure shall meet the tamper security requirements of this section Tamper rotection The construction of the power supply enclosure shall meet the tamper protection requirements of EN rovision shall be made to allow adequate fixing of the enclosure to the mounting surface Tamper Detection ower supply equipment is housed in enclosures previously evaluated for Tamper Requirements. See ITS Report MIN-011 ower supply equipment is housed in enclosures previously evaluated for Tamper Requirements. See ITS Report MIN-011

9 age 9 of 44 Report No MIN-004 A tamper signal or message shall be generated according to the requirements as specified in Table 4 and before access can be gained to override the detection Access to the inside of the housing All components, means of adjustment and mounting screws, which, when interfered with, could adversely affect the operation of the S, shall be located within the S housing. Such access shall require the use of an appropriate tool and depending on the grade as specified in Table 4 shall generate a tamper signal or message before access can be gained. It shall not be possible to gain such access without generating a tamper signal or message or causing visible damage Removal from mounting Attempts to remove the power supply from its mounting surface for a distance greater than that defined in Table 5 shall generate a tamper signal or message according to Table 4. It should not be possible to defeat the removal from mounting detection by sliding a 1 mm thick blade between the mounting surface and the power supply enetration of the housing When mounted according to the S manufacturer s instructions, it shall not be possible to penetrate the housing of the S through any of its accessible faces with a metal tool creating a hole of 4 mm or greater without generating a tamper signal or message according to Table 4. ower supply equipment is housed in enclosures previously evaluated for Tamper Requirements. See ITS Report MIN-011 ower supply equipment is housed in enclosures previously evaluated for Tamper Requirements. See ITS Report MIN-011 ower supply equipment is housed in enclosures previously evaluated for Tamper Requirements. See ITS Report MIN-011 ower supply equipment is housed in enclosures previously evaluated for Tamper Requirements. See ITS Report MIN Environmental The environmental classification is described in EN All the relevant environmental tests shall be carried out in accordance with EN Where the S is housed with one or more components of an I&HAS, the environmental requirement of the S shall be that of those components. In addition, for type C S, the environmental test shall be made with the SD inside the component with the exception of the endurance test and this SD shall be fully charged. ower Supply is Environmental Class II

10 age 10 of 44 Report No MIN-004 For operational tests, the power supply shall not generate tamper, fault or other signals or messages, when subjected to the specified range of environmental conditions and shall continue to supply its continuous rated output. For endurance tests, the power supply shall continue to meet the requirements of this standard after being subjected to the specified range of environmental conditions. See Table 6 for the relevant tests for each environmental class. These tests apply to all security grades. No unintentional signals generated 4.13 Safety The power supply shall provide protection against electrical shock and consequential hazards in accordance with the requirements of EN series or EN EVO 192 approved to IEC See Nemko report TRFSAF 4.14 EMC For all grades, the power supply shall not generate, or be affected by the EMC conditions and severity levels defined in EN and EN See the following Nemko reports: TRFEMC, TRFEMC, TRFEMC 4.15 Electrical Connections The means of electrical connection shall be appropriate for the physical size and current carrying capacity of the required conductors. Terminal blocks and other components utilised for connections shall be identifiable with numbers or other marks specified in the documentation Rated Output Under normal operating conditions and when fitted with a SD of maximum capacity as defined by the S manufacturer, the power supply shall deliver its rated output voltage / current continuously, limited during AS operation to the time periods specified in EN , via its independent power outputs into any load except as may be otherwise specified by the S manufacturer. The power requirement of any integrated component e.g. CIE, or S control components shall be declared in the S manufacturer s documentation Output Voltage Range rovided in documentation

11 age 11 of 44 Report No MIN-004 Under normal operating conditions, the voltage at the independent power outputs shall lie between the minimum power output voltage and the maximum power output voltage with a load connected and drawing no greater than the rated output of the power supply Input Voltage Range For power supplies types A and B, the requirements of shall be met when any applied and available ES lies within the range of 230 V AC +10 %, -15 % at a frequency as specified by the S manufacturer Output Voltage Stability Gradual Load Variation A gradual and continuous load variation on any one independent power output shall not reduce the functionality of this or any other independent power output Output Voltage Stability Switched Load Variation A switched load variation on any independent power output shall not reduce the functionality of any independent power output. Any transients that are generated during the load variation shall meet the requirements of Transients on the power outputs Transients on any independent ower Output during operation of the S shall be limited to: a) no more than 125 % of the maximum power output voltage and no less than 95 % of the minimum power output voltage for a period not exceeding 200 ms, and b) no more than 140 % of the maximum power output voltage and no less than 75 % of the minimum power output voltage for a period not exceeding 1 ms. Minimum: 11Vdc, Maximum: 14Vdc. Normal operating conditions: ~13.5Vdc See also clause 7.3 No multiple independent power outputs No multiple independent power outputs See also clause Marking The power supply shall be marked in accordance with , EN , and either EN series or EN Marked in accordance with , EN (See ITS report MIN-011), and EN (See 4.13) 6 Documentation The power supply shall be accompanied by documentation in accordance with EN Additionally, the documentation shall contain the following information: See also ITS report MIN-011

12 age 12 of 44 Report No MIN-004 a) installation, commissioning, maintenance and operating instructions; b) brief description of operation including characteristics of monitoring functions provided; Installation instructions provided c) type of S (A, B or C); Type A d) for types A and B, voltage rating and frequency requirements of the ES; e) rated output of the power supply and maximum rated output of each independent power output; f) the power requirement for any integrated component e.g. CIE, or the S control circuitry; g) output voltage range under normal operating conditions; h) for S with dc outputs, the maximum output peak to peak ripple voltage; i) type of SD, its maximum capacity and maximum time to recharge to 80 %; j) the SD voltage below which the AS Fault: Low Voltage SD signal or message will be generated; k) the voltage at any independent power output below which the ower Output Fault signal or message will be generated; l) the SD voltage below which the Deep Discharge rotection function will operate; 230VAC, 50 Hz (Transformer) 16VAC, 20/40VA, Hz (EVO 192) 12VDC, 700mA max, fuseless shutdown at 1.1A 11-14VDC (10.7VDC low-voltage, 15.5VDC over-voltage) 500mV limit Rechargeable acid/lead or gel cell battery, 12Vdc, 7Ah minimum 10.7V 11.3V 7.9V m) over-voltage protection trigger voltage; 15.5V n) connection details, including sufficient detail to enable effective interface and operation as part of the I&HAS; o) electrical and logical characteristics of monitoring signals and messages e.g. volt-free contact, message protocols supported; p) operating temperature and humidity range; -20 C to +50 C, 5-90% q) weights and dimensions; 10.8cm x 19.1cm (4.2in x 7.5in); Weight: 0.47 lbs. (0.21 kg) r) fixing details; s) details of type and value for any user serviceable components e.g. fuses; t) details (e.g. frequency and procedure) of any required calibration checks and adjustments.

13 age 13 of 44 Report No MIN Tests Where products are to be tested for compliance with this standard, the following tests shall be applied to S types A, B and C according to Table 7 below for the appropriate grade as defined in Table 1. These tests are intended to be primarily concerned with verifying the correct operation of the power supply to the requirements of this standard and the specification provided by the manufacturer. All the test parameters specified shall carry a general tolerance of ± 10 % unless otherwise stated. 7.1 General test conditions Standard laboratory conditions for testing The general atmospheric conditions in the measurement and tests laboratory shall be those specified in EN , 5.3.1, unless stated otherwise. Temperature: 15 C to 35 C Relative humidity: 25 % RH to 75 % RH Air pressure: 86 ka to 106 ka General detection testing environment and procedures The S manufacturer s documented instructions regarding mounting and operation shall be applied to all tests Signal or message processing time Where the S is integrated with another I&HAS component (e.g. CIE) or another component is the only means to indicate the generation of a signal or message, allowance shall be made for the processing time of that component Load electrical characteristics The electrical characteristics of the load used in these tests shall have no reactive component SD Discharged Condition A SD shall be considered to have reached its fully discharged condition if it has been subject to discharge from a fully charged state using a fixed current load over a period defined according to the SD manufacturer. Humidity below 25% did not affect any functional tests 7.2 Reduced Functional Test rinciple

14 age 14 of 44 Report No MIN-004 The principle of the reduced functional test consists of operating the S under full load conditions to verify that the S is operational before undergoing other tests (e.g. impact test, environmental test) and that it continues to function after these tests. For type A S the test is carried out with a fully discharged SD and maximum ES voltage. For a type B S the test is carried out with a SD at any state of charge and maximum ES voltage. For a type C S the test is carried out with a SD of sufficient charge for its voltage at any independent power output to remain above the Storage Device - Low Voltage value Test Conditions Mounting rocedure Stimuli Connect a SD of the maximum capacity specified for the S. For S type A this SD shall be discharged to the minimum level in accordance with Connect a load to the S that will demand the full rated output of the S proportionately spread across all the independent power outputs according to the individual maximum rating of each independent power output. Mount the S according to the S manufacturer s instructions. For S types A and B apply an ES voltage of 230 VAC +10 % to the S at a frequency specified by the S manufacturer. Operate the S. Open the S housing by normal means Measurement Measure the voltage and ripple voltage at each independent power output. Monitor the ES, AS, ower Output Fault and Tamper signal or message outputs ass/fail Criteria Throughout the test, the voltage and ripple voltage at any independent power output shall remain within the limits specified by the manufacturer. There shall be no ES, AS or ower Output Fault signals or messages generated during the tests. (See tables 7.2a and 7.2b) Not a Type B ower Supply Not a Type C ower Supply Discharged battery used 16 ohm load and/or TM50 and K641 Keypad to draw full rated output. 253VAC, 50 Hz (See tables 7.2a and 7.2b) (See tables 7.2a and 7.2b) Maximum ripple is 700mV as specified by standard No fault signals or messages

15 age 15 of 44 Report No MIN-004 A Tamper signal or message shall be generated when the S housing is opened by normal means. Tamper generated 7.3 S Rating rinciple The principle of this test is to verify the continuous rated output of the S under full load conditions and for S types A and B, under maximum and minimum values of ES voltage. This test is also to verify the specified power requirements of any integrated component or the S control circuitry Test Conditions Mounting rocedure Stimuli Connect a SD of the maximum capacity specified for the S. For S type A this SD shall be discharged to the minimum level in accordance with Connect a load to the S that will demand the full rated output of the S proportionately spread across all the independent power outputs according to the individual maximum rating of each independent power output. Mount the S according to the S manufacturer s instructions. For S types A and B: Apply an ES voltage of 230 V AC -15 % to the S at the frequency specified by the S manufacturer and operate the S for 30 min. Apply an ES voltage of 230 V AC +10 % to the S and operate the S for 24 h. (See tables 7.3a and 7.3b) 195Vac, 50 Hz 253Vac, 50 Hz For S type C, operate the S for 24 h. Not a Type C ower Supply At the end of the test period, disconnect the load and for S types A and B, disconnect the ES Measurement Measure the voltage and ripple voltage during the test at each independent power output. Measure the quiescent current drawn from the SD by the S control circuitry and any other components within the S housing e.g. CIE ass/fail Criteria Throughout the test, the voltage and ripple voltage at any independent power output shall remain within the limits specified by the manufacturer.

16 age 16 of 44 Report No MIN-004 The quiescent current consumption of the S control circuitry or any integrated components shall be no more than that specified by the manufacturer. 7.4 Output Voltage Stability - Gradual Load Variation rinciple The principle of this test consists of applying a continually varying load to one independent power output of the S and verifying that there is no influence on any other independent power output Test Conditions Mounting rocedure Stimuli Connect a variable load to one of the independent power outputs, capable of continuous adjustment to demand from 10 % to 100 % of the rating of that independent power output. Connect a fixed load proportionately spread across all the other independent power outputs, according to their individual maximum rating. This fixed load will demand the full rated output of the S when the tested output is at 100 % loading. Mount the S according to the S manufacturer s instructions. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Continuously increase the demanded load at a constant rate from 10 % to 100 % over a period of 10 s. Continuously decrease the demanded load at a constant rate from 100 % to 10 % over a period of 10 s Measurement Repeat Measure the voltage and ripple voltage during the test at each independent power output. For S having two or more independent power outputs, repeat this test with the variable load connected to one of the other independent power outputs ass/fail Criteria No multiple independent power outputs

17 age 17 of 44 Report No MIN-004 Throughout the test, the voltage and ripple voltage at each independent power output shall remain within the limits specified by the S manufacturer. 7.5 Output Voltage Stability Switched Load Variation rinciple The principle of this test consists of applying a switched load to one independent power output of the S and verifying that there is no influence on any other independent power output Test Conditions Mounting rocedure Stimuli Connect a load to one of the independent power outputs, capable of switching between 50 % to 100 % demand of the rating of that independent power output within 5 ms. Connect a fixed load proportionately spread across all the other independent power outputs, according to their individual maximum rating. This fixed load will demand the full rated output of the S when the tested output is at 100 % loading. Mount the S according to the S manufacturer s instructions. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Switch the load demand from 50 % to 100 %. Switch the load demand from 100 % to 50 % Measurement Repeat Measure the voltage and ripple voltage during the test at each independent power output. Monitor the voltage at each independent power output for transients. For S having two or more independent power outputs, repeat this test with the switched load connected to one of the other independent power outputs ass/fail Criteria Throughout the test, the voltage and ripple voltage at each independent power output shall remain within the limits specified by the manufacturer. No multiple independent power outputs

18 age 18 of 44 Report No MIN-004 Any transient voltages detected at the independent power outputs shall meet the requirements of Signalling: Loss of ES rinciple The principle of this test consists of verifying that an ES Fault signal or message is generated within the specified time period when the ES is removed and cancelled within the specified time period when the ES is re-connected Test Conditions Mounting rocedure Stimuli Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. Mount the S according to the S manufacturer s instructions. Apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer and operate the S. Remove the ES for at least 61 s. Re-apply the ES for at least 61 s Measurement Monitor the ES Fault signal or message output of the S ass/fail Criteria Monitor the ES Fault signal or message output of the S. The ES Fault signal or message shall be removed within 61 s after reconnection of the ES. (See table 7.6) 16 ohm load and/or TM50 and K641 Keypad to draw full rated output. 230Vac, 50 Hz 7.7 Signalling: Storage Device Low Voltage rinciple The principle of this test consists of simulating a dropping SD voltage and verifying that an AS Fault signal or message is generated at the SD voltage specified by the S manufacturer Test Conditions Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. (See table 7.7) 16 ohm load and/or TM50 and K641 Keypad to draw full rated output.

19 age 19 of 44 Report No MIN Mounting Simulate the presence of the SD by connecting a variable voltage power supply, or as advised by the S manufacturer. Mount the S according to the S manufacturer s instructions rocedure hase Stimuli For S types A and B, apply an ES voltage of 230 VAC at the frequency specified by the S manufacturer. For all types of S, verify that the initial simulated SD voltage represents a fully charged SD. Operate the S. For type A S only, remove the ES. Slowly reduce the simulated SD voltage until an AS Fault or SD Low Voltage signal or message is generated. Slowly increase the simulated SD voltage until the AS Fault or SD Low Voltage signal or message is removed Measurement Measure the simulated SD voltage at which the AS Fault or SD Low Voltage signal or message is generated and removed. Measure the time between the simulated SD voltage reaching and being increased from the SD Failure - Low Voltage value as specified by the S manufacturer and the generation and removal of the AS Fault or SD Low Voltage signal or message rocedure hase II Stimuli For type A S only. With the ES removed, slowly reduce the simulated SD voltage until an AS Fault signal or message is generated. Re-apply the ES Measurement Measure the simulated SD voltage at which the AS Fault signal or message is generated and removed. Measure the time between the re-connection of the ES and the removal of the AS Fault signal or message ass/fail criteria External DC power supply used 230Vac, 50 Hz Same as clause

20 age 20 of 44 Report No MIN-004 An AS Fault or SD Low Voltage signal or message shall be generated and removed according to Table 2 within the maximum time periods defined in Table 3, when the voltage of the SD falls below the low value as specified by the S manufacturer. For S type A, the AS Fault signal or message shall be removed within the maximum time periods defined in Table 3, when the ES is reconnected. Maximum time according to Table 3 is 5 minutes 7.8 Signalling: Storage Device Failure rinciple The principle of this test consists of simulating a failed SD and verifying that an AS Fault signal or message is generated and removed within 24 h of the creation and removal of the SD failure condition Test Conditions Mounting Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. In conjunction with the S manufacturer, connect a means of simulating a failed SD. Mount the S according to the S manufacturer s instructions rocedure hase Stimuli Apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer and operate the S. Simulate a failed SD and wait until an AS Fault signal or message has been generated or a period of 24 h has passed. Reset the failed SD simulator to a normal healthy SD and wait until an AS Fault signal or message has been removed or a period of 24 h has passed Measurement Monitor the time at which the AS Fault signal or message is generated and removed rocedure hase II If the S has the capability of operating with two or more storage devices in parallel, then the procedure of shall be repeated for each SD ass/fail Criteria (See table 7.8) 16 ohm load and/or TM50 and K641 Keypad to draw full rated output. External DC power supply used 230VAC, 50 Hz Single storage device only

21 age 21 of 44 Report No MIN-004 An AS Fault signal or message shall be generated within 24 h of the creation of, and reset within 24 h of the removal of, a failed SD condition. System/anel; Battery Failure message generated 7.9 Signalling: Low Output Voltage rinciple The principle of this test consists of creating an artificial low voltage on any one of the independent power outputs and verifying that a ower Output Fault signal or message is generated within 10 s Test Conditions Mounting rocedure Stimuli Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. Mount the S according to the S manufacturer s instructions. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. In conjunction with the S manufacturer, artificially create a voltage on one of the independent power outputs lower than the minimum power output voltage. If the means to artificially create the low output voltage can be reversed, wait for at least 10 s after the power output fault signal or message has been generated, then restore the independent power output voltage to its rated value Measurement Monitor the time at which the ower Output Fault signal or message is generated and removed ass/fail Criteria A ower Output Fault signal or message shall be generated and removed within 10 s of the creation and removal of the low output voltage condition. (See table 7.9) See also clause 7.7. The Aux. Output voltage on the EVO power supply is tied to the battery voltage Signalling: ower Unit Failure rinciple

22 age 22 of 44 Report No MIN-004 The principle of this test consists of creating an artificial failure in the U and verifying that a ower Output Fault signal or message is generated within 10 s Test Conditions Mounting rocedure Stimuli Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. Mount the S according to the S manufacturer s instructions. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. In conjunction with the S manufacturer, artificially create a failure such that the U can no longer provide the rated power output voltage at the S independent power outputs, or charge the SD Measurement Monitor the time at which the ower Output Fault signal or message is generated ass/fail Criteria A ower Output Fault signal or message shall be generated within 10 s of the creation of the U failure condition. (See table 7.10) 16 ohm load and/or TM50 and K641 Keypad to draw full rated output. 230VAC, 50 Hz 7.11 Signalling: ower Unit Failure SD Charging rinciple The principle of this test consists of simulating a failure in the U SD charging circuit and verifying that a ower Output Fault signal or message is generated within 10 s Test Conditions Mounting Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. Connect an SD of the maximum capacity specified for the S. The SD shall be discharged to the minimum level in accordance with (See table 7.11) See also clause 7.8. The SD supply and charging lines operate from the same circuit, if one is disabled, both are disabled.

23 age 23 of 44 Report No MIN rocedure Stimuli Mount the S according to the S manufacturer s instructions. Apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer and operate the S. In conjunction with the S manufacturer, disable the SD charging circuit. If the means to disable the SD charging circuit can be reversed, wait for 20 s and restore the SD charging circuit to its normal operation Measurement Monitor the time at which the ower Output Fault signal or message is generated and removed ass/fail Criteria A ower Output Fault signal or message shall be generated within 10 s of the SD charging circuit being disabled, and reset within 10 s of the charging circuit being restored to normal operation Remote test rinciple The principle of this test consists of triggering the internal tests of SD Failure in accordance with the S manufacturer s instructions and verifying that the resulting test sequence does not prevent the S from operating normally Test Conditions Mounting Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. In conjunction with the S manufacturer, connect a means of simulating a failed SD. Mount the S according to the S manufacturer s instructions rocedure hase Stimuli Apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer and operate the S. Simulate a failed SD. Trigger the internal test of SD Failure by applying a Remote Test request signal or message according to the S manufacturer s instructions. Not required for Security Grade 3

24 age 24 of 44 Report No MIN-004 Reset the failed SD simulator to a normal healthy SD. Re-trigger the internal test of SD Failure by applying a Remote Test request signal or message according to the S manufacturer s instructions Measurement Measure the voltage at each independent power output. Measure the time at which the AS Fault signal or message is generated and removed. Monitor the Tamper output rocedure hase 2 If the S has the capability of operating with two or more storage devices in parallel, then the procedure of shall be repeated for one of the other SDs ass/fail Criteria Throughout the test, the voltage at each independent power output shall remain within the limits specified by the manufacturer. An AS Fault signal or message shall be generated within 10 s of application of the Remote Test request signal or message. The AS Fault signal or message shall be removed within 60 s of application of the Remote Test trigger signal or message unless the SD has failed the internal test. No Tamper signal or message shall be generated during the triggering, application or signalling of results of the internal tests of SD Failure SD Recharging rinciple The principle of this test consists of measuring the current supplied by the U into a discharged SD over the grade dependant recharge period and verifying that during this period sufficient charge has been supplied to recharge the SD to 80 % of its rated capacity. This test is conducted with the S under full rated load. For a Grade 4 S, the SD float charging voltage for a fully charged SD is verified to remain within the SD manufacturer s specified limits when the S is cycled through its range of operating temperatures Test Conditions Connect a load to the S that will demand the full rated output of the S proportionately spread across all the independent power outputs according to the individual maximum rating of each independent power output. (See table 7.13) Not security grade 4

25 age 25 of 44 Report No MIN Mounting rocedure Stimuli Connect a SD of the maximum capacity specified for the S. This SD shall be discharged to the minimum level in accordance with or the level at which the Deep Discharge rotection function of the S has disconnected the SD during the AS operating period. Mount the S according to the S manufacturer s instructions. A Grade 4 S shall be mounted in a suitable test enclosure in which the temperature can be varied between the minimum and maximum temperatures for the Environmental Class for which the S is specified. Apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer and operate the S. For a Grade 4 S extend the maximum SD recharge period by 100 %, or as otherwise agreed with the S manufacturer, to achieve full charge of the SD. Continue to operate the S such that the SD is float charging. Cycle the temperature of the test enclosure twice between the maximum and minimum operating temperatures for the rated Environmental Class of the S over a period of 24 h. Each cycle shall commence and end with the maximum temperature Measurement Before connection of the ES, measure the open circuit terminal voltage of the SD. Measure the current supplied to the SD over the grade dependent maximum SD recharge period as defined in EN For a Grade 4 S, measure the ambient temperature of the SD and the charging current and voltage applied to the SD during the temperature cycled float charging period ass/fail Criteria The open circuit terminal voltage of the SD shall be above any minimum SD voltage specified by the S manufacturer at which an SD shall be charged. Recharging of the SD shall automatically commence when the ES is connected. Sufficient current shall have been supplied to the SD to restore 80 % of the rated capacity of the SD during the maximum recharge period. Not security grade 4 Not security grade 4 Not security grade 4

26 age 26 of 44 Report No MIN-004 For a Grade 4 S, the float charge current and voltage shall remain within the limits defined by the SD manufacturer over the test temperature range. Not security grade Over-voltage rotection rinciple The principle of this test consists of simulating, or otherwise creating, a component failure in the S to activate the over-voltage protection and verifying that the power output voltage at all independent power outputs is limited to 125 % of the maximum power output voltage Test Conditions Mounting rocedure Stimuli Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. Mount the S according to the S manufacturer s instructions. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. In conjunction with the S manufacturer, simulate or otherwise create, a component failure in the S capable of generating a voltage greater than 125 % of the maximum power output voltage on one or more independent power outputs Measurement Measure the voltage on all independent power outputs ass/fail Criteria The voltage on any independent power output shall not exceed 125 % of the maximum power output voltage of the S. Over voltage protection set at 15.5 Volts, which does not exceed 125% of the maximum power output voltage. Component Q13 (MOSFET) clamps the voltage at a maximum of 15.5V No multiple independent power outputs 7.15 Short Circuit rotection rinciple

27 age 27 of 44 Report No MIN-004 The principle of this test consists of applying a short circuit load to one or more independent power outputs of the S and verifying that there is no influence on any other independent power output. On removal of the short-circuit and reset of any protection device, the voltage and output current capability of all independent power outputs are verified that they operate within the S manufacturer s specified limits Test Conditions Mounting Connect a load to one of the independent power outputs, capable of switching a demand between at least 10 % of the rating of that independent power output and a short circuit within 10 ms. Mount the S according to the S manufacturer s instructions rocedure hase Stimuli For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Switch the load demand from at least 10 % to a short circuit Measurement Measure the voltage and ripple voltage during the test at each unloaded independent power output. Monitor the voltage at each unloaded independent power output for transients rocedure - hase Stimuli Remove the short circuit and reset any protection device, if applicable. Connect a load to the test output that will demand 100 % of the rating of that output. Operate the S Measurement Repeat Measure the voltage and ripple voltage during the test at each independent power output. For S having two or more independent power outputs, repeat this test with the switched load connected to each of the other independent power outputs in turn ass/fail Criteria No multiple independent power outputs

28 age 28 of 44 Report No MIN-004 Throughout the test, the voltage and ripple voltage at each independent power output except the short-circuit output shall remain within the limits specified by the manufacturer. Any transient voltages detected at the unloaded independent power output shall meet the requirements of Overload rotection rinciple The principle of this test consists of: a) applying an overload to one or more independent power outputs of the S and verifying that there is no influence on any other independent power output b) on removal of the overload condition and reset of any protection device, the voltage and current capability of all independent power outputs are restored to the S manufacturer s specified limits Test Conditions Mounting Connect a variable load to one of the independent S outputs, capable of continuous adjustment from 10 % to 150 % demand of the rating of that independent power output. Mount the S according to the S manufacturer s instructions rocedure hase Stimuli For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Vary the load demand from 10 % to 150 % over a period of 10 s Measurement Measure the voltage and ripple voltage during the test at each unloaded independent power output. Monitor the voltage at each unloaded independent power output for transients rocedure - hase Stimuli Remove the overload condition and reset any protection device, if applicable. Connect a load to the test output that will demand 100 % of the rating of that output. Operate the S. No multiple independent power outputs

29 age 29 of 44 Report No MIN Measurement Repeat Measure the voltage and ripple voltage during the test at each independent power output. For S having two or more independent power outputs, repeat this test with the variable load connected to each of the other independent power outputs in turn ass/fail Criteria Throughout the test, the voltage and ripple voltage at each unloaded independent power output except the overloaded output shall remain within the limits specified by the manufacturer. Any transient voltages detected at the unloaded independent power output shall meet the requirements of Deep Discharge rotection rinciple The principle of this test consists of simulating a dropping SD voltage during the AS operating period and verifying that the SD is disconnected at the Deep Discharge rotection voltage specified by the S manufacturer Test Conditions Mounting rocedure Stimuli Connect a load demand of at least 10 % of the rated output of the S to one of the independent power outputs. Simulate the presence of the SD by connecting a variable voltage power supply, or as advised by the S manufacturer. Mount the S according to the S manufacturer s instructions. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Verify that the initial simulated SD voltage represents a fully charged SD. Operate the S to verify correct power output voltage. For types A and B S, remove the ES. Slowly reduce the simulated SD voltage Measurement (See table 7.17) (See test data for further explanation.) 16 ohm load and/or TM50 and K641 Keypad to draw full rated output. External DC power supply used 230VAC, 50 Hz

30 age 30 of 44 Report No MIN-004 Measure the simulated SD voltage at which the SD is disconnected from the load. Measure the voltage at each independent power output ass/fail Criteria The SD shall be disconnected from the load when the voltage of the SD falls below the Deep Discharge rotection value as specified by the S manufacturer. The voltage at each independent power output shall have reduced below the minimum power output voltage before the SD is disconnected. Missing keypad message generated at ~8.1Vdc simulated SD (7.9Vdc at Aux. Out). Disconnected from load at ~7.4Vdc simulated SD (0.0Vdc at Aux. Out) (See test data for further explanation) (See test data for further explanation.) 7.18 Automatic Changeover to AS rinciple The principle of this test consists of verifying that no excessive transient voltages are generated during the changeover period between ES and AS operation Test Conditions Mounting rocedure Stimuli Connect a load to the S that will demand the full rated output of the S proportionately spread across all the independent power outputs according to the individual maximum rating of each independent power output. Connect an SD of maximum rated capacity that is charged to greater than 80 % of its rated capacity. Mount the S according to the S manufacturer s instructions. Apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Disconnect the ES Measurement Measure the voltage during the test at each independent power output. (See table 7.18) 16 ohm load and/or TM50 and K641 Keypad to draw full rated output. Fully charged battery used 230VAC, 50 Hz

31 age 31 of 44 Report No MIN ass/fail Criteria The voltage throughout the test at each independent power output shall remain within the limits specified by the S manufacturer. Any transient voltages detected at the independent power outputs shall meet the requirements of Tamper rotection rinciple rocedure Stimuli The principle of this test is to use Impact testing to verify that the S housing meets the tamper protection requirements of Subject the S housing to impact tests in accordance with EN Measurement Assess the S as described in the reduced functional test in ass/fail Criteria The S shall meet the requirements of the reduced functional test before, during and after the environmental tests. The generation of signals or messages is permitted as a result of this test. There shall be no signs of mechanical damage that will reduce the integrity of the S housing unless a tamper signal or message has been generated. ower supplies are housed in other components. ower supply meets the tamper requirements of those components 7.20 Tamper Detection Access to the inside of the housing rinciple The principle of this test is to verify that it is not possible to insert a tool into the S in its normal mounting position and defeat the operation of the tamper detection circuitry or otherwise adversely affect the operation without generating a tamper signal or message or causing visible damage Test Conditions Mounting Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. ower supplies are housed in other components. ower supply meets the tamper requirements of those components

32 age 32 of 44 Report No MIN rocedure Stimuli Mount the S according to the manufacturer s instructions with the housing secured closed. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Without causing significant visible damage, attempt to gain access to all components, means of adjustment and mounting screws which, when interfered with, could adversely affect the operation of the S Measurement Measure the voltage of the S at each independent power output. Monitor the ES, AS, ower Output Fault and Tamper signal or message outputs of the S ass/fail Criteria Normal access shall require the use of an appropriate tool. For the grades specified in Table 4, it shall not be possible to gain access to any components, means of adjustment and mounting screws, which, when interfered with, could adversely affect the operation of the S, without generating a tamper signal or message or causing visible damage. The voltage throughout the test at each independent power output shall remain within the limits specified by the manufacturer Tamper Detection Removal from mounting rinciple The principle of this test consists of removing the S from its mounting surface and monitoring the S to determine whether a Tamper signal or message is generated within the required time period when the maximum permitted distance has been exceeded Test Conditions Mounting rocedure Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. osition the S sample on a horizontal flat surface, taking into account any requirements specified by the manufacturer to operate the removal from mounting detection device. ower supplies are housed in other components. ower supply meets the tamper requirements of those components

33 age 33 of 44 Report No MIN Stimuli For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Lift the S from the flat surface in a perpendicular direction to the mounting surface by the distance specified in , whilst monitoring the Tamper signal or message output. Attempt to slide a test blade as defined in to defeat the removal from mounting detection before and during the above test Measurement Monitor the Tamper signal or message output. Record whether it was possible to prevent the generation of a Tamper signal or message using the test blade ass/fail Criteria The Tamper signal or message shall have been generated within 11 s of the S exceeding the distance specified in It shall not have been possible to prevent the generation of a Tamper signal or message using the test blade Tamper Detection enetration of the housing rinciple The principle of this test consists of drilling a hole in an accessible face of the S housing and verifying that a Tamper signal or message is generated Test Conditions Mounting rocedure Stimuli Connect a load demanding at least 10 % of the rated output of the S to one of the independent power outputs. Mount the S according to the S manufacturer s instructions. For S types A and B, apply an ES voltage of 230 V AC at the frequency specified by the S manufacturer. Operate the S. Drill a hole of 4 mm diameter in any accessible face of the S using a metal drill bit. ower supplies are housed in other components. ower supply meets the tamper requirements of those components

34 age 34 of 44 Report No MIN Measurement Monitor the Tamper signal or message output ass/fail Criteria For the grades specified in Table 4, a Tamper signal or message shall be generated when a hole of 4 mm is made in any accessible face of the S housing Environmental and EMC rinciple rocedure Stimuli The principle of this test is to verify using the Reduced Functional Test of 7.2 that the S will operate correctly during or after given environmental conditioning without significant mechanical damage or degradation of performance. Subject the S to the tests given in Table 6, in accordance with EN , EN and EN applying the reduced functional test of 7.2, before, during and after each conditioning, inclusive of any recovery period specified in EN The tests shall be applied to the sample number of the product under test in accordance with Table 6. For type A S the SD is permitted to charge during the operational tests and remains at its final state of charge for the reduced functional test applied after the environmental conditioning Measurement Assess the S as described in the reduced functional test of ass/fail Criteria The S shall meet the requirements of the reduced functional test before, during and after the environmental tests in accordance with Table 6. There shall be no signs of mechanical damage that will reduce the integrity of the S housing. The shock and impact tests may generate transient signals or messages, but these shall not be present for longer than 200 ms. For EMC tests, the S shall operate within the limits defined in EN and EN EMC not part of this evaluation. See also ITS report MIN-011 No mechanical damage EMC not part of this evaluation. See also ITS report MIN Marking and Documentation

35 age 35 of 44 Report No MIN rinciple rocedure The principle of this test consists of verifying that the marking of the S and the documentation supplied with the S meets the requirements of Clauses 5 and 6. Examine the marking of the S. Examine the documentation supplied by the S manufacturer ass/fail criteria The marking on the S shall meet the requirements of Clause 5 of this standard. The documentation shall meet the requirements of Clause 6 of this standard. See also clauses 5 & 6 Markings meet clause 5 Documentation meets clause 6

36 age 36 of 44 Report No MIN a TABLE: Reduced Functional test S model number Test Voltage Measured output voltage Measured output ripple Result / Comments TR40/16/18 Transformer 253 Vac, 50 Hz Vac (for reference) EVO 192 Aux. Output 19.1 Vac, 50 Hz Vdc 34 mv Supplementary information: No fault signals or messages generated. Measured voltage was the maximum measured. Tested with System 3. Maximum ripple is 700mV per standard (14Vdc*.05=.7V) 7.2b TABLE: Reduced functional test Component Response to tamper open by normal means Result / Comment Open the S housing by normal means. aradox Enclosure with Tamper Switch Zones; 1 open on TM50, message: Zone (label), open Supplementary information: aradox enclosure houses the TR40/16/18 Transformer and LC-RD1217 Battery, with Tamper Switch wired to Zone 001 of EVO192 Control anel as 24 hr buzzer. Zone (label) set to: S Tamper. Tested with System 3.

37 age 37 of 44 Report No MIN a TABLE: S Rating S model number Test voltage Quiescent current measured at SD Maximum output voltage Measured output ripple Result / Comments TR40/16/18 Transformer 195 Vac, 50 Hz 14.39Vac (for reference) 253 Vac, 50 Hz 18.2Vac (for reference) EVO 192 Aux. Output LC-RD1217 Battery 195 Vac, 50 Hz 11.2Vdc 31.1 mv 253 Vac, 50 Hz 11.2Vdc (initial) 11.2Vdc (30min) 11.1Vdc (2hours) 12.2Vdc (20 hours) 12.5 Vdc (22 hours) 12.6 Vdc (24 hours) 11.7Vdc (ES disconnected) 34 mv 37 mv 39.6 mv 48.1 mv 45.2 mv 34 mv 8.5 mv (ES disconnected) 195 Vac, 50 Hz 0.9 A (charging) * 253 Vac, 50 Hz 0.8 A (charging) 0.9 A (supplying, no ES) * Supplementary information: Maximum ripple is 700mV per standard (14Vdc*.05=0.7V). 16 ohm load connected on Aux. Output. anel set up to charge at 850mA. Tested with system 3. *Not measuring quiescent current draw of S as the battery is being charged because it is discharged to a level consistent with when the test is started. See Table 7.3b Measurements based on spec of 500mV ripple limit 7.3b TABLE: S Rating Component Manufacture stated quiescent current (µa) Measured quiescent current (µa) Result / Comments LC-RD1217 Battery 70mA 61 ma Supplementary information: Removed keypads and 16 ohm load on Aux. Output at end of 24 hours at 253VAC for this measurement.

38 age 38 of 44 Report No MIN TABLE: Signalling: Loss of ES S model number Action Response Time for response Result / Comments TR40/16/18 Transformer and LC- RD1217 Battery with EVO 192 panel Remove ES for 61 sec Re-apply ES for 61 sec Info button on TM50 highlighted in yellow, with Troubles message: System/anel; AC Failure Info button on TM50 no longer highlighted. Troubles message disappears. Supplementary information: 230 Vac, 50 Hz. Unplugged the AC. Tested with system sec 2.1 sec 7.7 TABLE: Signalling: Storage Device Low Voltage S model number LC-RD1217 Battery with EVO 192 panel Action Response Measured voltage for response Reduce SD voltage Increase SD voltage Re-apply ES after reduced SD voltage Info button on TM50 highlighted in yellow with Troubles message: System/anel; Battery Failure Event Log: Trouble, Battery Failure Info button on TM50 no longer highlighted. Troubles message disappears. Event Log: Trouble restored, Battery restored Hitting back on Troubles message screen gives System is okay message. Time for response Result / Comments 10.6 V 2 sec 12.1 V 2 sec - 2 sec Supplementary information: Used an external DC power supply to simulate an SD. Reduced voltage until the system responded. Tested with system 1. Maximum response time = 5 minutes for security grade 3.

39 age 39 of 44 Report No MIN TABLE: Signalling: Storage Device Failure S model number Action Response Time for response LC-RD1217 Battery with EVO 192 panel Apply SD Failure Remove SD Failure Info button on TM50 highlighted in yellow with Troubles message: System/anel; Battery Failure Event Log: Trouble, Battery Failure Info button on TM50 no longer highlighted. Troubles message disappears. Event Log: Trouble restored, Battery restored 55 sec 28 sec (see below) 49 sec 27 sec (see below) Result / Comments Supplementary information: Disconnected the battery. (System runs a Battery test every minute. Message will not appear or clear until this check is made by the system, hence the 2 different times). Tested with system TABLE: Signalling: Low Voltage Output S model number Action Response Time for response Result / Comments TR40/16/18 Transformer with EVO 192 panel EVO 192 Aux. Output Low voltage on output Removal of low voltage on output Low voltage on output Removal of low voltage on output Supplementary information: Voltage on the Aux. Output is tied to the Battery line. Cannot get a low voltage on the output without disconnecting the ES. See clause TABLE: Signalling: ower Unit Failure (230 Vac, 50 Hz) S model number Action Response Time for response TR40/16/18 Transformer with EVO 192 panel Artificially create a failure such that the U can no longer provide the rated power output voltage Info button on TM50 highlighted in yellow with Troubles message: System/anel; AC Failure Result / Comments 1.6 sec Supplementary information: Disconnected the output of the power supply. Tested with system 1.

40 age 40 of 44 Report No MIN TABLE: Signalling: ower Unit Failure SD Charging S model number Action Response Time for response Result / Comments TR40/16/18 Transformer with EVO 192 panel Disable the SD charging circuit. Wait for 20 s and restore the SD charging circuit to its normal operation Supplementary information: The SD supplying and charging operate on the same lines. If one direction (charging or supplying) is disabled, both are disabled. See result of test TABLE: SD Charging Battery capacity SD Voltage Average current supplied to SD 17 AH 7.9 Vdc (before connection of ES) Time for recharge battery from fully discharged Result / Comments 850 ma* 20 hours** Supplementary information: LC-RD1217 Battery discharged to the level of Deep Discharge protection specified by the manufacturer (7.9Vdc). anel set up to charge at 850mA. Tested with system 2. *Based on charging options of EVO 192 panel. Set for 850mA. Measurements confirm this charging current. **Based on battery capacity divided by average current measured. 17 AH /.850 A = 20 hours. Maximum time for Grade 3 is 24 hours per EN Table TABLE: Deep discharge protection S model number Action Measured voltage when SD is disconnected TR40/16/18 Transformer with EVO 192 panel, and DC power supply simulating the Battery TR40/16/18 Transformer with EVO 192 panel, and DC power supply simulating the Battery Remove the ES & slowly reduce the simulated SD voltage. Remove the ES & slowly reduce the simulated SD voltage V (SD simulated voltage) 7.42 V (SD simulated voltage) Measured voltage at S output (Aux. Output) Result / Comments 7.9 V (Missing keypad message comes across, Keypads are still powered) 0.0 V (System shuts off/ Keypads turn off) Supplementary information: Used and external DC power supply to simulate an SD. Manufacture rating of Deep-Discharge rotection is 7.7 ±0.3V. Tested with system 3.

41 age 41 of 44 Report No MIN TABLE: Automatic Changeover to AS S model number Action Measured voltage at S output Transient voltage measured on S output Transient limits* Result / Comments EVO 192 Aux. Output Disconnect the ES 12.0 V High transient: 940mV = 12.94V 20 ms 11.4 V min 15.0 V max Low transient: 140mV = 11.86V 16 ms 11.86V to 12.94V 36 ms Supplementary information: See also G MIN TDS *Transient limits are 125% of the maximum voltage and 90% of the minimum voltage not exceeding 200ms, and 140% of the maximum voltage and 75% of the minimum voltage, not exceeding 1 ms. (limits based on 12VDC rating). Tested with system TABLE: Environmental and EMC Test Conditions Reduced functional test results Before During After Result Dry Heat (Operational) Cold (Operational) Damp Heat, Steady State (Endurance) - Damp Heat, Cyclic (Operational) Impact - Vibration, Sinusoidal (Operational) Monitor EMC (Susceptibility) Monitor * EMC (Emissions) EN * Supplementary information: for result of reduced functional test indicated that the results are identical to those in clause 7.2. Monitor indicates no errant signals or messages occurred during the conditioning period. See also ITS report MIN-011. * See the following Nemko reports: TRFEMC, TRFEMC, TRFEMC, and ITS report MIN-011

42 age 42 of 44 Report No MIN-004 hoto 1: EVO 192 Control anel with Enclosure hoto 2: EVO 192 Control anel Board

43 age 43 of 44 Report No MIN-004 hoto 3: TR 40/16/18 Transformer and LC-RD1217 Battery with Enclosure hoto 4: TR 40/16/18 Transformer hoto 5: LC-RD1217 Battery

44 age 44 of 44 Report No MIN-004