NAVY MIL-STD-2202 A-1994 ENERGY MONITORING AND CONTROL SYSTEMS FACTORY TESTS《工厂测试能源监测和控制系统》.pdf

1、b 4 i MIL-STD-2202A 999991L 0474991 777 - (NOT MEASUREMENTI I SENSXTLVE I MIL-STD-2202A l!LhLEM SUPERSEDING MIL-STD-2202 29 May 1987 MILITARY STANDARD ENERGY MONITORING AND CONTROL SYSTEMS, FACTORY TESTS AMSC N6988 AREA ATTS DISTRIBUTION STATEMENT A : APPROVED FOR PUBLIC RELEASE; DISTRIBUTION IS UNL

2、IMITED. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-STD-2202A = 99999LL 0474992 b03 MIL-STD-2202A FOREWORD 1. This military standard is approved for use by all Departments and Agencies of the Department of Defense. 2. Beneficial comments (rec

3、ommendations, additions, deletions) and any pertinent data which may be of use in improving this document should be addressed to: Commanding Officer (Code 156), Naval Construction Battalion Center, Port Hueneme, CA 93043-4301, by using the Standardization Document Improvement Proposal (DD Form 1426)

4、 appearing at the end of this document or by letter. ii Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-STD-2202A m 99999311 0474993 54T = CONTENTS Page Paragraph 1 . SCOPE 1 2 . APPLICABLE DOCUMENTS 2 3 . DEFINITIONS . 3 4 . GENERAL REQUIREMENTS

5、 15 4.1 4.2 4.2.1 4.3 4.3.1 f! . 4 4.4.1 4.5 General . 15 Test plans . 15 Data requirements for test plans 15 Test procedures . 15 Data requirements for test procedures 16 Testreports 16 Data requirements for test reports . 16 Test equipment and set up 16 5 . DETAILED REQUIREMENTS 17 5.1 General . 1

6、7 5.2 Factory tests 17 Test Number Title 1A 2A 3A Initial System Equipment Verification 18 System Startup . 19 System Accuracy and Resolution . 20 Surge Protection Tests: 4A 5A 6A Overvoltage Test: 7A Power Line Surge Protection . 21 Sensor and Control Wiring Surge Protection . 22 Communication Link

7、s Surge Protection 23 Data Communication Links Overvoltage Protection 24 FID/MUX or RCU/ACU Hardware and Software: 8A 9A 10A 11A 12A 13A FID or RTU Memory and FID/MUX or RCU/ACU Spare I/O Capacity 25 FID or RTU startup and Functions 26 FID or RTU RTC and RAM Battery Backup 28 FID/MUX or RCU/ACU Batt

8、ery Backup 29 FID/MUX or RCU/ACU Portable Tester . 30 FID or RTU Test Set . 32 iii Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-CONTENTS Analog/Digital 1/0 Functions: Page 14A 15A Analog and Digital 1/0 Functions 33 (Common Mode) . 35 Analog Input

9、 Function Noise Protection Analog/Digital 1/0 Functions: (Continued) 16A 17A Analog Input Function Noise Protection Digital Input a non-volatile semiconductor memory. 3.109 Real time. Real time is a situation in which a computer monitors, evaluates, reaches decisions, and effects controls within the

10、 response time of the fastest phenomenon. 3.110 Real time clock (RTC). A real time clock is a device which maintains accurate time of day, day of week, and date information for the computer. The RTC may be updated by hardware. 10 Provided by IHSNot for ResaleNo reproduction or networking permitted w

11、ithout license from IHS-,-,-MIL-STD-2202A m 99999LL 0475007 732 m MIL-STD-2202A 3.111 Register. A register is a digital device capable of retaining information. 3.112 Reinitialization. Refer to initialization. 3.113 Remote control unit (RCU). The RCU is an intelligent hardware device containing soft

12、ware which implements the distribution process aspects of operating with the central computer as well as maintaining effective control of field control loops. 3.114 Remote operator station (ROS) Identical to a COS except remotely located. 3.115 Resistance temperature detector (RTD). An RTD is a devi

13、ce where resistance changes linearly as a function of temperature. 3.116 Selective generation. Selective generation is where the management of input/output is restricted to selected peripherals. 3.117 Sensors. Sensors are devices used to detect or measure physical phenomena. 3.118 Sinple steDDing. S

14、ingle stepping is the procedure by which the next statement in a memory resident program is executed by depressing a switch, 3.119 SnaDshot. A snapshot is a picture of the instantaneous status and state of a system. 3.120 Software. Software is a term used to describe all programs whether in machine,

15、 assembly, or high-level language. 3.121 Source code. Source code is a term used to describe assembler and high-level programmer developed code. 3.122 Stand-alone. Stand-alone is a term used to designate a device or system which can perform its function totally independent of any other device or sys

16、tem. 3.123 Standard panel. A control panel developed by the U.S. Army Corps of Engineers to control heating, ventilating, and air conditioning equipment. 3.124 Supervisory control. Supervisory control is a separate (and usually remote) control and monitoring of local control loops. control. ) (See D

17、irect digital 3.125 System normal heavy. System normal heavy load conditions are defined as the occurrence throughout the system of a total of three status changes, three digital alarms, three analog high or low limit alarms, and three analog quantity changes within the high and low limits during a

18、single 1-second interval. This number of similar occurrences shall repeat on a continuous basis during successive 1 second intervals for up to 30 seconds. The system normal heavy load conditions shall have 50 percent of the changes and alarms, including no less than one of each type, occurring at a

19、single FID or RTU or MUX or ACU with the remaining changes and alarms distributed among the Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-STD-2202A 9999911 O475008 b79 = MIL-STD-2202A remaining FID/MUX or RCU/ACU. No DTM link shall be more than

20、 65 percent loaded during this normal heavy load condition and the alarm printer shall continue to print out all occurrences. 3.126 ThrouehDut. - Throughput is the total capability of equipment to process or transmit data during a specified time period. 3.127 Time base generator (TBG). See Clock. 3.

21、128 Time tag. A time tag is the date and time of occurrence of an event. 3.129 True digital. A true digital is a representation of any value by symmetric digits, used to form fixed length words. 3.130 Unitarv control unit (UCU). UCU is a microprocessor based, dedicated purpose device designed and pr

22、ogrammed to control air distribution system mixing boxes, terminal units or variable air volume (VAV) boxes. 3.131 Utilitv control system (UCS). A computer based system for monitoring A typical system would include a COS, DTM and and controlling utility systems. RTUc/ACUs . 3.132 Utilitv monitoring

23、and control systems (UMCS). A computer based A system for monitoring and controlling utility systems and energy usage. typical system would include COSs, DTM, and RCUs/ACUs. 3.133 Volatile memorv. the stored digital data is lost when power is removed. A volatile memory is a semiconductor device in w

24、hich 3.134 Word. A word is a set of binary bits handled by the computer as the primary unit of information. 3.135 m. A zone is an area composed of a building, a portion of a building, or a group of buildings affected by a single device or piece of equipment. 3.136 Definitions of acronyms used in thi

25、s standard. The following acronyms listed in this Military Standard are defined as follows: A/D - AA - AC - ACU AHU - AI - AO - ATC - ASCII - B/C BASIC - BCD - bit - Btu/hr - bPS Analog to digital. Analog alarm. Alternating current. Auxiliary control unit. Air handling unit. Analog input. Analog out

26、put. American standard code for information interchange Automatic temperature control. Benefit to cost ratio. Beginners all-purpose symbolic instruction code. Binary coded decimal. Binary digit. Bits per second. British thermal unit per hour. 12 Provided by IHSNot for ResaleNo reproduction or networ

27、king permitted without license from IHS-,-,-MIL-STD-2202A D 9999933 0475009 505 ccu CHW CLT cos CPA CPS CPU CT dB DC DDC DE DI DMA DO DPS DTC DTM DX EEPROM EMCS EM1 EPROM FCB FID D/A E/C MIL-STD-2202A - Central control unit. - Chilled water. - Communications link termination. - Central operator stat

28、ion. - Control point adjustment. - Characters per second. - Central processing unit. - Current transformer. - Digital to analog. - Decibel. - Direct current. - Direct digital control. - Data environment. - Digital input. - Direct memory access. - Digital output. - Differential pressure switch. - Dat

29、a terminal cabinet. - Data transmission media. - Direct expansion. - Energy to cost ratio. - Electrically erasable PROM. - Energy monitoring and control system. - Electromagnetic interference. - Erasable PROM. - Failover control board. - Field interface device. FORTRAN - Formula translation. FS FSK

30、HOA HVAC HW Hz I the accuracy should be: (AI) + (sensor12 + (transmitter)*)% For a calibrated temperature sensor (RTD), the accuracy should be (0.5)2 + (0.1)2 + (0.1)2)% = .52% of temperature span. Test No: Factory-3A 10 June 1994 20 Provided by IHSNot for ResaleNo reproduction or networking permitt

31、ed without license from IHS-,-,-MIL-STB-2202A 9999911 0475037 bB3 MIL-STD-2202A TEST NO: Factory-4A Page 1 of 1 OBJECTIVE: To demonstrate that TITLE : all equipment connected to AC APPLIES TO: Large/Medium EMCS/UMCS/UCS power circuits can meet the REFERENCE: Proj. Spec. Paragraph requirements of the

32、 contract. Power Line Surge Protection INITIAL CONDITIONS 1. System power lines to each type of EMCS, MCS, and UCS equipment to be installed are randomly selected for the test. TEST EQUIPMENT 1. The test equipment shall generate AC power surges to meet the requirements of the contract. 1 EVENT EXPEC

33、TED RESULTS Connect the test equipment between 1. After the application and removal each input line and ground for each piece of equipment to be tested, and apply the required power surges malfunctions, degradation of in accordance with the contract. performance, or deviation from of the power surge

34、, the tested equipment shall not exhibit any their normal mode of operation. Visually verify equipment operation by manually initiating changes in the DE that require the operation of the tested equipment. System displays required data. Test No: Factory-4A 10 June 1994 21 Provided by IHSNot for Resa

35、leNo reproduction or networking permitted without license from IHS-,-,-MIL-STD-2202A m 99999LL 04750LB 5LB m MIL-STD-2202A TEST NO: Factory-5A Page 1 of 1 OBJECTIVE: To demonstrate the TITLE : APPLIES TO: Large/Mediwn EMCS/UMCS/UCS induced on sensor and control wiring REFERENCE: Proj. Spec. Paragrap

36、h by the test defined in the contract. Sensor and Control Wiring ability of all digital and analog 1/0 devices to withstand surges Surge Protection INITIAL CONDITIONS 1. Wiring to each type of digital and analog input and output device is randomly selected for the test. 2. Surge protection is instal

37、led on circuits to be tested, TEST EQUIPMENT 1. The test equipment shall generate the waveform described in the contract. 1. Command the system to display status of input/output points for those 1/0 devices to be tested. 2. Connect the test equipment at the 1/0 function input terminals to be tested,

38、 and generate the test waveform described in the contract, while the system is in operation. 3. Manually initiate changes in the DE that require the operation of the tested equipment. System displays required data. Command the system to display status of 1/0 points. EXPECTED RESULTS 1. System displa

39、ys 1/0 status. 2. After the application and removal of the test waveform, the tested equipment shall not exhibit any malfunctions, degradation of performance, or deviation from its normal mode of operation. 3. System displays new 1/0 status. Test No: Factory-SA 10 June 1994 22 Provided by IHSNot for

40、 ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-STD-2202A = 9999911 OY75019 45q MIL-STD-2202A TEST NO: Factory-6A Page 1 of 1 OBJECTIVE: To test the ability of TITLE : Communications Links Surge all contractor supplied APPLIES TO: Large/Medium EMCS/UMCS/UCS fiber opti

41、cs, to withstand the test REFERENCE: Proj. Spec. Paragraph wave defined in the contract. Protection communication equipment, except TEST EQUIPMENT 1. The test equipment generates the waveform described in the contract. 2. Disconnect the DTM and connect test wave generator to DTE terminals. 3. Surge

42、protection is installed on circuits to be tested, 1. Command the system to display status of 1/0 points. 2. Connect the test equipment across each type of data transmission equipment to be used in the EMCS and generate the test waveform described in the contract, while the EMCS is in operation. 3. M

43、anually initiate changes in the DE that require the operation of the tested equipment. Command the system to display status of 1/0 points. EXPECTED RESULTS 1. System displays 1/0 status. 2. After the application and removal of the waveform, the communication equipment shall not exhibit any malfuncti

44、ons, degradation of performance, or deviation from its normal mode of operation. 3. System displays new 1/0 status. Test No: Factory-6A 10 June 1994 23 Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-STD-2202A m 9999911 0475020 Lib W MIL-STD-2202

45、A TEST NO: Factory-7A Page 1 of 1 OBJECTIVE: To demonstrate the TITLE: Data Communications Links the ability of all contractor Overvoltage Protection supplied communication equipment, APPLIES TO: T.,arge/Medium EMCS/UMCS/UCS except fiber optics, to withstand REFERENCE: Proj. Spec. Paragraph a 480 VA

46、C, RMS 60 Hz signal superimposed on any data communication line terminal. INITIAL CONDITIONS 1. Overvoltage protection is installed on circuits to be tested. TEST EQUIPMENT 1. The test equipment is a 480 VAC, RMS, 60 i-Iz single phase source. EVENT EXPECTED RESULTS 1. Command the system to display s

47、tatus 1. System displays 1/0 status. of 1/0 points. 2. Connect the test equipment to each data communication equipment of the test waveform, the communication line terminal (one at equipment not connected to the a time) and apply the test voltage for a period of at least 1 minute while the system is

48、 in operation. performance, or deviation from 2. After the application and removal test equipment does not exhibit any malfunctions, degradation of its normal mode of operation. Only the fuse or fusible link shall be destroyed on receiving the 480 test voltage, components are replaced, the communica

49、tion equipment does not exhibit any malfunctions, degradation of performance, or deviation from its normal mode of operation. When these 3. Manually initiate changes in the DE 3. System displays new 1/0 status. that require the operation of the tested equipment. Command the system to display status of 1/0 points. Test No: Factory-7A 10 June 1994 24 Provided by IHSNot for ResaleNo rep