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Mitsubishi Electric ME96SSH-MB Programming Manual
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Mitsubishi Electric ME96SSH-MB Programming Manual

Mitsubishi Electric ME96SSH-MB Programming Manual

Cc-link electronic multi-measuring instrument
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Electronic Multi-Measuring Instrument
Programming Manual (CC-Link)
For ver.2 remote device station
Model
ME96SSH-MB or ME96SSR-MB with Optional Plug-in Module: ME-0040C-SS96
ME96SSHA-MB or ME96SSRA-MB with Optional Plug-in Module: ME-0040C-SS96
ME96SSHB-MB or ME96SSRB-MB with Optional Plug-in Module: ME-0040C-SS96
LEN130391B

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Summary of Contents for Mitsubishi Electric ME96SSH-MB

  • Page 1 Electronic Multi-Measuring Instrument Programming Manual (CC-Link) For ver.2 remote device station Model ME96SSH-MB or ME96SSR-MB with Optional Plug-in Module: ME-0040C-SS96 ME96SSHA-MB or ME96SSRA-MB with Optional Plug-in Module: ME-0040C-SS96 ME96SSHB-MB or ME96SSRB-MB with Optional Plug-in Module: ME-0040C-SS96 LEN130391B...
  • Page 2 CONTENTS General Description ..........................3 Specification ............................. 4 Configuration Conditions of CC-Link System ..................5 Remote net ver.2 mode, remote net addional mode ................ 5 Programming ............................7 Programming Procedure ........................7 Parameter Settings ..........................8 Procedure from Parameter Settings to Data Link Startup ..............8 5.1.1 CPU Parameter Area and Master Module Parameter Memory ..........
  • Page 3 NOTICE When using ME96, Optional Plug-in Module “ME-0040C-SS96” is necessary. CC-Link communication is not available without the optional plug-in module. In this manual, “ME96SSH-MB”, “ME96SSR-MB”, “ME96SSHA-MB”, “ME96SSRA-MB”, “ME96SSHB-MB” or “ME96SSRB-MB” means the main device of ME96 with the optional plug-in module.
  • Page 4 Specification CC-Link specification is shown in Table 2.1 when ME96 is set the “Ver2.00” (ver.2 remote device station). Table 2.1 CC-Link Specification (For Ver2.00) Item Specification CC-Link station type Remote device station (ver.2 remote device station) Number of occupied stations 1 station (Expanded cyclic setting: Octuple) Maximum number of stations 42 stations ( In case of connecting only remote device...
  • Page 5 Configuration Conditions of CC-Link System 3.1 Remote net ver.2 mode, remote net addional mode A total of 64 remote I/O stations, remote device stations, local stations, standby master stations, or intelligent device stations can be connected to a single master station. However, the following conditions must all be satisfied.
  • Page 6 ME96SSH-MB/SSR-MB ME96SSHA-MB/SSRA-MB ME96SSHB-MB/SSRB-MB (6/n) LEN130391B...
  • Page 7 Programming 4.1 Programming Procedure Create a program which executes the “Monitoring of the measurement valus” by following the procedure below: START Set the CPU parameter to start the data link. Parameter setting (Refer to Section 5) Required Select the command to transmit to the ME96. Selecting Commands (Refer to Section 0) In nesessary...
  • Page 8 Parameter Settings 5.1 Procedure from Parameter Settings to Data Link Startup The following explains the procedure from setting the parameters to stating the data link. 5.1.1 CPU Parameter Area and Master Module Parameter Memory CPU Parameter Area This area is used to set the basic values for controlling the programmable controller system and the network parameters that control the CC-Link system.
  • Page 9 5.2 Example of Parameter Settings with GX Developer (Remote net ver.2 mode) This section explains the parameter settings using the GX Developer. For more details on the GX Developer operation, refer to the GX Developer Operating Manual. The explanations in this section are based on the following example of the system configuration.
  • Page 10 Example for Setting Item Description Remarks settings Set the "No. of boards in module " for No.of boads in which the network parameters are to module set. Set the "Start I/O No." for the master Start I/O No 0000 station. Set the following: Even if the Parameter ・Parameter name...
  • Page 11 POINT (1) For the automatic refresh parameter setting, set the start device only. Devices are automatically assigned until the last station number including reserved stations and occupied stations. In the example of the system configuration in this section, the last station number is "2". Therefore, total of remote I/O points is 256 points (128 x 2 = 256) and total of remote registers points is 64 points (32 x 2 = 64).
  • Page 12 《Example for Station information settings》 Example for Setting Item Description Remarks settings Set the “ver2.00” in Setting Menu 7 of Set the station data. Ver2. Remote device Station type station ME96. ME96 cannot use other than “octuple”. Expanded cyclic setting octuple Set the “Occupies 1 station”...
  • Page 13 Communication Between the Master Station and ME96 6.1 Communication Guideline There are three communication statuses (Initial Communication, Normal Communication, Error Communication) between the Master station and ME96. In the normal communication, alarm status and digital input status of ME96 can be monitored using bit data (remote input RX).
  • Page 14 6.2 Initial Communication Initial communication is performed at the beginning after the power supply is turned on or hardware is reset. Refer to section 7.1 about the remote input RX and the remote output RY. ① RX(n+7)8 ③ (Initial data processing request flag) ④...
  • Page 15 6.4 Normal Communication After initial data processing is complete, allows the monitoring by pattern, monitoring by command(1H) and setting by command(2H). 6.4.1 Monitoring by Pattern Up to 16 mesuring values can be monitored by setting a bit of RY. Measuring values which can be monitored have been already grouping in ME96 in advance.
  • Page 16 6.4.2 Monitoring by Command(1H) Up to 8 measuring values can be monitored by setting the unique codes (called unit No., group No. and channel No.). ② ④ RY(n+1)0 (Monitor pattern setting flag = P00) ① Writes to Remote register master station (RWw) RX(n+1)0 (Setting...
  • Page 17 6.4.3 Setting by Command(2H) A setting item of ME96 can be set by setting the unique codes (called unit No., group No. and channel No.) and setting data. ② ④ RY(n+1)0 (Monitor pattern setting flag =P00) ① Writes to Remote register master station (RWw) RX(n+1)0...
  • Page 18 Remote I/O and Remote Register 7.1 Remote Input RX, Remote Output RY The remote input RX and remote output RY are used to communicate for bit data between the master station and ME96. 7.1.1 Remote input RX The allocation of the remote input RX of ME96 is shown in the table below. ME96SSH Description ME96SSHA...
  • Page 19 Relationships between programmable controller CPU, master module and ME96(RX) 1) The input status of ME96 is stored automatically (for each link scan) in the master station's "remote input RX" buffer memory. 2) The input status stored in the "remote input RX" buffer memory is stored in the CPU device set with the automatic refresh parameters.
  • Page 20 7.1.2 Remote Output RY The allocation of the remote output RY of ME96 is shown in the table below. Description Device Signal name Note ON(1)→OFF(0) OFF(0)→ON(1) RYn0 - - Reserved RYnF RY(n+1)0 Not setting Setting Monitor pattern setting flag P00 RY(n+1)1 -...
  • Page 21 Relationships between programmable controller CPU, master module and ME96(RY) 1) The on/off data of the CPU device set with the automatic refresh parameters is stored in the "remote output RY" buffer memory. 2) Remote output RY is automatically set to on/off (for each link scan) according to the output status stored in the "remote output RY"...
  • Page 22 7.2 Remote Register (RWr, RWw) The remote registers RWr and RWw are used to communicate word data between the master station and ME96. Because it occupiers 1 station(Expanded cyclic setting: octuple), the remote registers RWr and RWw each have 32 words in length. For monitoring by pattern, it is not necessary to use remote registers(RWw).
  • Page 23 Relationships between programmable controller CPU, master module and ME96(RWr) 1) The remote registers RWr data of a remote device station is automatically stored in the "remote registers Rwr" buffer memory of the master station. 2) The remote registers RWr data of ME96 stored in the "remote registers RWr" buffer memory is stored in the CPU device set with the automatic refresh parameters.
  • Page 24 Relationships between programmable controller CPU, master module and ME96(RWw) 1) The transmission data of the CPU device set with the automatic refresh parameters is stored in the "remote registers RWw" buffer memory. 2) The data stored in the "remote registers RWw" buffer memory is automatically sent to the remote registers RWw of each remote device station.
  • Page 25 ② format Inst.: Instantaneous value *1: Applicable only when ME96SSH-MB/ME96SSHA-MB/ME96SSRA-MB/ME96SSHB-MB/ME96SSRB-MB. (“Last” means the rolling demand value of the latest interval time completed.) Note: “[ ]” in the above table indicate the unit of measuring items. Note: P10 and P12 can be used for 3P4W only. In others, the error will occur.
  • Page 26 Group format ① For group format ①, Up to 8 measuring items can be monitored per a group. Measuring items are expressed in 4 words. Group format ① RWr00 Channel No. Group No. RWr01 Index number <Channel No., Group No.> ME96 returns fixed data determined for each RWr02 Low data...
  • Page 27 Group format ② For group format ②, Up to 16 measuring items can be monitored per a group. Measuring items are expressed in 2 words. However, it is necessary to be multiplied by using Table 7.23 because there is no multiplying factor data . Group format ②...
  • Page 28 7.2.2 When Monitoring by Command(1H) Up to 8 measuring values can be monitored by setting the unit No., group No. and channel No. to remote registers(RWw). Monitor pattern setting flag(RX(n+1)0) is used to send the command. (For details, refer to section 6.4.2) The command can be sent only when the remote READY(RX(n+7)B) is ON.
  • Page 29 Table 7.2 Group Channel List (1/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ○ ○ ○ ○ ⑥ Model code ○ ○...
  • Page 30 Table 7.3 Group Channel List (2/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ① Average L-N voltage Inst. ○ ○ ① 1-N voltage Inst.
  • Page 31 Table 7.4 Group Channel List (3/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ○ ○ ○ ○ ① Total power factor Inst.
  • Page 32 Table 7.5 Group Channel List (4/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ① 2-3 harmonic voltage Inst. Total ○ ○ ①...
  • Page 33 Table 7.6 Group Channel List (5/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ① 1-N harmonic voltage Inst. Total ○ ○ ①...
  • Page 34 Table 7.7 Group Channel List (6/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ① 2-N voltage THD Inst. Total ○ ○ ①...
  • Page 35 Table 7.8 Group Channel List (7/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ① L-N voltage THD max. Total ○ ○ ①...
  • Page 36 Table 7.9 Group Channel List (8/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ △ ○ △ ① *1 Phase 2 harmonic current Inst.
  • Page 37 Table 7.10 Group Channel List (9/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ○ ○ ① Phase 3 current THD Inst. Total ○...
  • Page 38 Table 7.11 Group Channel List (10/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ○ ○ ○ ○ ① Harmonic current max. Total ○...
  • Page 39 Table 7.12 Group Channel List (11/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ○ ○ ○ ○ ② *3 Active energy import count ○...
  • Page 40 Table 7.13 Group Channel List (12/12) ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel ME96SSHB-MB ME96SSRB-MB Note type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ○ ○ ○ ○ ① Current upper limit Alarm ○...
  • Page 41 *1: △ in the table means that it is applicable when the setting of phase wiring is 3P3W_3CT only. *2: Unit number is “0” when the setting of phase wiring is 1P2W, 1P3W or 3P3W. *3: About the reply data of active energy(Wh), reactive energy(varh) and apparent energy(VAh), refer to follows. Example) In case of active energy(import) data is 876,543,210,987,654,321mWh, each reply data are follows.
  • Page 42 7.2.3 When Setting by Command(2H) Settings of ME96 can be set by communication. Monitor pattern setting flag(RX(n+1)0) is used to send the command. (For details, refer to section 6.4.2) The command can be sent only when the remote READY(RX(n+7)B) is ON. Data Set (Programmable controller→ME96)...
  • Page 43 Table 7.14 List of Group and Channel for Setting ME96SSH-MB ME96SSR-MB ME96SSHA-MB ME96SSRA-MB Unit Data Group Channel Name of Cannel Setting range Note ME96SSHB-MB ME96SSRB-MB type 3P3W 3P3W 3P4W 1P2W 3P4W 1P2W 1P3W 1P3W ○ ○ ○ ○ ○ ○...
  • Page 44 *1: In details of setting data and setting ranges, please refer each user’s manuals. *2: Effective value of primary voltage(L-L) is follows.  3P4W Use the primary voltage value (L-N) (*3).  3P3W or 1P2W  In details of setting data and setting ranges, please refer each user’s manuals. ...
  • Page 45 7.2.4 Data format of Monitoring by Command(1H) and Setting by Command(2H) 7.15 Table Data Format (1/8) Data Format ① Data Measurement Items Current, Voltage, Multiplying Active power, factor Index number Reactive power, Apparent power, Numerical value Low data Power factor, Frequency, High data etc.
  • Page 46 7.16 Table Data Format (2/8) Data Format ② Data Measurement Items Active energy, Reactive energy, Multiplying Apparent energy, factor Index number Operation time, CO2 equivalent , Numerical value Low data etc. High data High data Low data b24 b23 b16 b15 ②...
  • Page 47 7.17 Table Data Format (3/8) Data Format ③ Data b8 b7 Multiplying factor Index number Numerical value Low data High data Measurement High data Low data Items b24 b23 b16 b15 Active energy, Reactive energy, Apparent energy, (unit fixed) Numerical value: 32-bit integer with a sign However, the effective numerical value is 0 to 999999999 (0H to 3B9AC9FFH) Data changes 999999998 →...
  • Page 48 Table 7.18 Data Format (4/8) Data Format ④ Data b8 b7 Unused (00H fixed) Index number Unused (0000H fixed) Low data High data High data Alarm state 1 Alarm state <The allocation of the alarm state 1> Data ME96SSH/ SSHA/SSRA/ ME96SSR Content OFF(0)
  • Page 49 <Continuation> Data Format ④ Data b8 b7 Unused (00H fixed) Index number Unused (0000H fixed) Low data High data High data Alarm state 2 Alarm state Format④ <The allocation of the alarm state 2> Data ME96SSH/SSR ME96SSHA/SSRA Content OFF(0) ON(1) ME96SSHB/SSRB ○...
  • Page 50 <Continuation> Data Format ④ Data b8 b7 Unused (00H fixed) Index number Unused (0000H fixed) Low data High data High data Alarm state 3 Alarm state Format④ <The allocation of the alarm state 3> Data ME96SSHB/SSRB Content OFF(0) ON(1) Reserved Reserved Reserved Reserved...
  • Page 51 Table 7.19 Data Format (5/8) Data Format ⑤ Data b8 b7 Multiplying factor Index number Numerical value Low data High data Setting Items High data Low data Primary current, Primary Voltage, b24 b23 b16 b15 Secondary current, Secondary Voltage, Frequency, Upper/lower limit, CO2 equivalent rate, Numerical value: 32-bit integer with a sign...
  • Page 52 Data Note. All models of ME96 C50A 0500H 5) Attribute monitor Model Data Note. All models of ME96 C510 1000H 6) Model code Example Data Note. ME96SSH-MB 00000014H ME96SSR-MB 00000013H ME96SSHA-MB 00000017H ME96SSRA-MB 00000016H ME96SSHB-MB 0000001BH ME96SSRB-MB 0000001AH (52/n) LEN130391B...
  • Page 53 Table 7.21 Data Format (7/8) Data Format ⑦ Data b8 b7 Unused (00H fixed) Index number Low data High data High data Low data b24 b23 b16 b15 Alarm Item 1 Alarm Item 2 Alarm Item 3 Alarm Item 4 Setting Items Note: The numbers of alarms which can set are 4 items.
  • Page 54 Table 7.22 Data Format (8/8) Data Format ⑧ Data b8 b7 Unused (00H fixed) Index number Unused (0000H fixed) Low data High data High data Setting Items 16bit set register1 Set register Format⑧ <16bit set register 1> Data ME96SSH/SSR ME96SSHA/SSRA Content ON(1) OFF(0)
  • Page 55 <Continuation> Data Format ⑧ Data b8 b7 Unused (00H fixed) Index number Unused (0000H fixed) Low data High data High data Setting Items 16bit set register2 Set register <16bit set register 2> Format⑧ Data ME96 ME96 ME96 SSHB Content ON(1) OFF(0) /SSHA /SSRB...
  • Page 56 7.2.5 Multiplying factor The conditions of multiplying factor by setup of each element are shown befow. Table 7.23 Multiplying factor Multiplying Element Unit Condition factor less than 440V Voltage Primary voltage Harmonics voltage 440V or more less than 4A Current 4A or more and less than 40A Current demand Primary current...
  • Page 57 7.2.6 About Error Occurrence When the command and related data transmitted to ME96 is improper or ME96 is in H/W error, the error code shown in Table 7.24 is returned as reply data. RX(n+7)A (Error status flag) becomes 1(ON), Table 7.24 Error Code Error Description Error Code (Hex.) Illegal command or packet length...
  • Page 58 Abbreviations and Special Terms Abbreviations and special terms used in this manual are shown below: Abbreviation and Special Terms Description Master station Station which controls remote stations and local stations. One station is required for one system. Local station Station with the CPU which can communicate with master station and other local stations.
  • Page 59 Program Example 9.1 Program Content This program example is assumed the system configuration in below. In the program, at first, the parameters of the linked number and station information are set, and the data link with the parameter of buffer memory startes up. Next, the reading data shown in below is monitored continuously.
  • Page 60 9.3 Parameter Settings Parameter settings are set as following with GX Developer. 9.3.1 Network Parameter Settings and Auto Refresh Parameter Settings The following is shown CC-Link network parameter settings and auto refresh parameter settings. (60/n) LEN130391B...
  • Page 61 9.3.2 Operational Settings Operational settings are as follows. 9.3.3 Station Information Settings Station information settings are as follows. (61/n) LEN130391B...
  • Page 62 9.4 Device Allocation Allocation of transmitted device Items Contents Device No. Note Station number 1: X1000 remote X1000 to X107F Remote input Remote input (RX00 to RX7F) input(RX) refresh device. (RX) Station number 2: X1080 to X10FF Remote input (RX00 to RX7F) Station number 1: Y1000 remote...
  • Page 63 Items Contents Device No. Note Multiplying factor, 00h Total reactive power Numerical value R2, R3 Total power Multiplying factor, 00h factor Numerical value R6, R7 Multiplying factor, 00h Reactive energy (import lag) Numerical value R10, R11 Multiplying factor, 00h Phase 1 current Numerical value R34, R35...
  • Page 64 9.5 Program Example Set the Unit.No., Group No. and Channel No. for monitoring by command(1H). Set the number of ME96. (64/n) LEN130391B...
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  • Page 69 Test Mode ME96 has the test mode which the fixed values are replied even if the voltage and current are not input. It can be used to check the communication to programmable controller. 10.1 ME96SSH/SSR/SSHA/SSRA/SSHB/SSRB-MB Shift to Test Mode Operation of ME96 is necessary. At first, shifts to the setting value confirmation mode from the operation mode.

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