ADL series guide rail electric energy meters 1 General Terminal electricity meters adopt 35mm standard guide rail installing mode 、 LCD display ,measure electric energy and other electrical parameters, electricity pulse output function , Clock,rate period parameters can be set also. Data swap with the super ordination machine Via RS485 Communication. This power meter has advantages of smaller volume, high precision, good reliability, easily installing etc, meet the related technical requirements of electronic power meter in the GB/T 17215、GB/T 17883 and DL/T 614 standards. It can be used to measure electric energy in Government agencies and large public buildings ,and to manage electric energy for enterprises and institutions.
2、Technical features Model
Applications
ADL10-E Single phase circuit
√
ADL100-ET ADL100-E ADL300-E
√
√
Three phase circuit 5(30)A
ADL3000-E
√
√
√
10(60)A
√
1.5(6)A Current specification 5(20)A
√
√
√
√
√
√
10(40)A
√
√
√
20(80)A
√
√
√
√
√
√
√
√
√
Direct √ Connection
√
connecting Via CT connecting
3、Product function
Model ADL10-E ADL100-ET ADL100-E ADL300-E ADL3000-E Function Current/Voltage
■
Kw/Kvar/KVA Electrica PF/Hz l measur Maximum demand ement Electric energy measur ement
Active power
■
■
■
■
■
■ □
■
■
■
■
Reactive power
Comple x rate period
Commu nication( chose one)
■
■
■
Complex rate power
□
□
Peak, flat, valley
□
□
Peak, peak, flat, valley
□
□
□
□
Period
eight periods
eight periods
eight periods
eight periods
Time、Date
□
□
□
□
Modbus-RTU
□
□
□
□
DL/T645
□
□
□
□
Note:1.■:standard function;□:optional function) 2.When choose the Maximum demand, Complex rate period must be chose at the same time.
4、Technical features
Technical parameters Model
ALD10ADL100-ET E
ADL100-E
Power supply
ADL3000-E
None
The rated voltage Voltage input
ADL300-E
AC220V
AC 3×220/380V、AC3×380V
Frequency
50HZ
Power ≤5VA
≤2VA
5(30)A
10(60)A
≤5VA
≤2VA
Consumption Input current
1.5(6)A、5(20)A、10(40)A、20(80)A
Starting Current input
current
0.004Ib
c Power Consumption
≤1VA
Accuracy Accuracy class
clock precision
Output
Reactive power,0.5S class
Active power,1.0 class
None
Error≤0.5s/d
Photo-coupler,Open collector, ive output,Battery powered DC+5V~24V
Pulse 80ms±20ms Pulse output
width pulse (imp/Kwh)(C orresponding 3200 to the input current )
Communic ation Dimensions
1600
RS485(A+、B-) None
Shielded twisted pair cable
protocol Long x width x 18×9 height 1×64
Installation
6400、1600、800、400
800
interface Medium
12800、 3200、1600、
MODBUS-RTU 36×89×62
76×89×74 Guide 35mm
126×91×74
Wiring capaci ty
Temp eratur e range
Flexible cable 6
16
25
(mm²) Working temperature
﹣20℃~﹢60℃
Storage temperature
﹣30℃~﹢70℃
Humidity
≤95%(No condensation)
Altitude
<2000m
5、Terminals ●ADL10-E ●ADL10-E single phase electric energy meter
Load KWH 直接接入 Direct access
●ADL100-ET single phase electric energy meter
Load Electric energy pulse Direct access
●ADL100-E single phase electric energy meter
Load
Electric energy pulse
Access with CT
Electric energy pulse
Direct access
●ADL300-E、ADL3000-E three phase electric energy meter
Load 3P3W access with CT
3P4W direct access
Load
3P3W direct access
3P3W access with CT
Clock pulse
Electric energy pulse
6 Dimensions and installation 6.1 Dimensions (1)ADL10-E Front view
Side view
Figure 1 ADL10 outline drawing (2)ADL100-ET
Figure 2 ADL100-ET outline drawing
(3)ADL100-E Front view
Side view
single phase energy meter
Pulse
Figure 3
peak
flat
valley
ADL100-E outline drawing
(4)ADL300-E /ADL3000-E Front view
Acrel DTSD1352
Side view
R
三相多功能电能表
报警
相序
失压
GB/T17215
three phase energy meter
有功
0.5S
DL/T614 50HZ/60HZ SET
UI
无功
有功 Active
无功 2.0
reactive PQ
E
Figure 6 ADL300-E /ADL3000-E outline drawing
7. Ordering example (1)ADL100-EF Model: ADL100-EF Requirements: input single phase 220v; input current 5(20) A; direct access;1.0class Communication protocol: None Power supply: None (2)
Model: ADF100
Requirements :input single phase 220V;input current 10(40)A; direct access;6 single phase electric energy measurement; 1.0 class Communication protocol: RS485 interface , Modbus/RTU protocol Power supply :None (3)
Model:ADL300-EF
Requirement :input voltage 3*220/380V; input current 10(40) A;3P4W;direct access ;XX area industrial period;1.0 class Communication protocol: RS485 interface, Modbus /RTU protocol Power supply :None (4) Model:ADL3000-E/C Requirements:input 3*220/380V;input current 1.5(6)A;3P4W;access with CT;1.0 class Communication protocol:RS485 interface,Modbus/RTU protocol Power supply : None
8 Communication protocol 8.4 Communication description 8.4.1 RS485/MODBUS-RTU Communication mode ● Communication interface:RS485 ● Communication connection mode:two-wire(RS485+, RS485-), shielded twisted pair conductors ● Communication working mode:half- duplex ● Communication speed:9600bps(default)、4800bps、2400bps、1200bps optional 8.4.2 Communication connection ● Linear connection mode with Communication connection
converter
Computer communication port ● Ring connection mode with Communication connection
resistance
converter
Computer communication port
8.4.3 Communication protocol ADL Series guide rail power meters MODBUS-RTU Communication protocol, MODBUS protocol todefine the check code, data sequence etc. in detail, they are necessary content for specific data exchange .MODBUS protocol use master/slave responding connection (half duplex) on the same Communication line. After signal from host computer addressing of the only one terminal device (slave computer),the terminal device sends answering signal and transmit to host computer. MODBUS protocol can only permitted to used between host computer (PC,PLC etc.) and terminal device, thus to prohibit the data exchange between independent terminal devices. In this way, every terminal device does not occupy Communication line in their initialization, only responding to the enquiry signal from host (1) Transmission mode The information transmit in asynchronous mode in bytes, the Communication information transmitting between the host computer and the slave computer is the 10 bits format, including one Initial bit, 8 data bit (Firstly Transmitting the least effective bit), without parity check bit,1 stop bit. (2) Data frame format Address code
Function code
Data area
CRC check code
1 byte
1 byte
n byte
2 byte
Address code:address code is located at beginning of frame, composed of one byte (8 bit binary system code), decimal system is 0~255,in the ACR meters, just 1~247 is used, other address is Reserved. these bits indicate terminal device address specified by s, this device will receive the connecting host computer data .Every terminal device has only one address, only the addressing terminal respond to enquiry including this address. When terminal is transmitting one responding, the responding slave address data tell host computer that which terminal is it. Function code:function code tell the target terminal to execute what function. Below
table list: function code used in this Series meters, and their meaning and function. Function
Definition
Operation
Read data
Obtain current binary system value of one or multiple
Preset multi-
Set binary system value into a series of multi-registe
03H/04H 10H
Data area : data area includes the data needed by terminal for executing specific function, or the collected data when terminal is responding enquiry. Content of these data could be value ,reference address or setting value. For example :The function code tell terminal to Read one ,the data area need to specify the starting and Read how many data, the built-in address and data have different content depending on type and slave computer. CRC check code:Error check (CRC) domain occupies 2 byte, including one 16 bit binary system value. CRC value is calculated by transmission device, and then attached to the data frame, the receiving device, while receiving, it calculates the CRC value again, then comparing it with the receiving CRC domain value, if these two values are not equal, it an error occurs. 8.4.4 Expatiating for communication applicable format (1)Function 03H: read This function allow to obtain data and parameters collected and recorded by equipment .Data amount of once requested by host computer have no limit. but the address should be in range. Following example is one basic data read from 01 slave (each address in data frame occupy 2 bytes). The collected data is the total electric energy E (occupy 4 bytes), other address is 00H (2)Function code 10H: writing Function code 10H allows the to change the contents of multiple s .Time, date, rate period of time etc. in meter can be written by this function code. The one shot maximum write in data (32 byte) of host computer is 16. Below meter example show: Preset address01,date, time : 12:00:00, 01/02/2008. Transmitte d informatio n
Slave returning
Returning information
Address code
01H
Address code
01H
Function code
10H
Function code
10H
Master transmitting
Initial address
High byte
00H
Low byte
12H
nitial address
High byte
00H
Low byte
12H
No.
High byte
00H
Low byte
03H
Byte number
06H
0012H Data to be written
High byte
08H
Low byte
02H
0013H Data to be written
High byte
01H
Low byte
0CH
0014H Data to be written
High byte
00H
Low byte
00H
CRC check code
High byte
FFH
Low byte
A8H
No. CRC check code
High byte
00H
Low byte
03H
High byte
20H
Low byte
0DH
8.4.5 Communication parameter address table and application details (1) ADL100 address table Address
Variable
Belong to R/W
Data format
Data Model
0000H 0001H
Current total electricity
R/W
Each electric energy occupy 4 byte
Dword
0002H 0003H
Current peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
0004H 0005H
Current flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
0006H 0007H
Current valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
0008H 0009H
Reversing electric energy
R/W
Each electric energy occupy 4 byte
Dword
000AH 000BH
Reactive electric energy
R/W
Reserved
Dword
000CH
Voltage
R
XXX.X V
word
000DH
Current
R
XX.XX A
word
000EH
Active power
R
Reserved
word
000FH
Reactive power
R
Reserved
word
0010H
Power factor
R
Reserved
word
0011H
Frequency
R
Reserved
word
0012H
Year, month
R/W
0013H
Day, hour
R/W
0014H
Minute,second
R/W
yy.mm.dd hh:mm:ss
word word word
0015H High byte
Communication address
R/W
001-247
char
Communication baudrate
R/W
01 —— 9600bps(default) 02 —— 4800bps 03 —— 2400bps 04 —— 1200bps
0021H
8-period of time Parameters setting information
R/W
Each period of time occupys Three bytes nn mm hh
0022H 0023H
This month total electric energy
R/W
Each electric energy occupy 4 byte
Dword
0024H 0025H
peak electric energy of this month
R/W
Each electric energy occupy 4 byte
Dword
0026H 0027H
flat electric energy of this month
R/W
Each electric energy occupy 4 byte
Dword
0028H 0029H
valley electric energy of this month
R/W
Each electric energy occupy 4 byte
Dword
002AH 002BH
total electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
002CH 002DH
peak electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
002EH 002FH
flat electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
0030H 0031H
Ultimo valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
0032H 0033H
Before ultimo total electric energy
R/W
Each electric energy occupy 4 byte
Dword
0034H 0035H
Before ultimo peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
0036H 0037H
Before ultimo flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
0038H 0039H
Before ultimo valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
Belong to R/W
Data format
Data Model
0015H Low byte 0016H~
char
char
(2)ADL300 address table Address
Variable
0000H 0001H
Current total electric energy
R/W
Each electric energy occupy 4 bytes
Dword
0002H 0003H
Current spike electric energy
R/W
Each electric energy occupy 4 bytes
Dword
0004H 0005H
Current peak electric energy
R/W
Each electric energy occupy 4 bytes
Dword
0006H 0007H
Current flat electric energy
R/W
Each electric energy occupy 4 bytes
Dword
0008H 0009H
Current valley electric energy
R/W
000AH
Year, month
R/W
000BH
Day, hour
R/W
000CH
Minute,second
R/W
Communication address
R/W
000DH High byte 000DH Low byte 000EH~ 0019H
Communication baudrate
8-period of time parameters setting information
R/W
Each electric energy occupy 4 bytes yy.mm.dd hh:mm:ss 0001~0247 01 —— 9600bps(default) 02 —— 4800bps 03 —— 2400bps 04 —— 1200bps
word word word word char
char
R/W
Each period of time occupys Three bytes nn mm hh
char
001AH
Reserved
001BH 001CH
This month total electric energy
R/W
Each electric energy occupy 4 byte
Dword
001DH 001EH
This month spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
001FH 0020H
This month peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
0021H 0022H
This month flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
0023H 0024H
valley electric energy of This month
R/W
Each electric energy occupy 4 byte
Dword
0025H
Reserved
0026H 0027H
total electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
0028H 0029H
spike electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
002AH 002BH
peak Electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
002CH 002DH
flat Electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
002EH 002FH
valley Electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
0030H
Reserved
0031H 0032H
total electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0033H 0034H
Before ultimo spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
0035H 0036H
Before ultimo peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
0037H
Before ultimo flat electric
R/W
Each electric energy occupy 4
Dword
0038H
energy
byte
0039H 003AH
Before ultimo valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
(3)ADL3000 address table Address 0000H 0001H
Variable Current total active Electric energy
Belong to R/W
Data format
Data Model
R/W
Each electric energy occupy 4 byte
Dword
0002H 0003H
Current total spike Electric energy
R/W
Each electric energy occupy 4 byte
Dword
0004H 0005H
Current total active peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
R/W
Each electric energy occupy 4 byte
Dword
0006H 0007H
Current total Electric energy
active
flat
0008H 0009H
Current total active valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
000AH 000BH
Current forward active total electric energy
R/W
Each electric energy occupy 4 byte
Dword
000CH 000DH
Current forward active spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
000EH 000FH
Current forward active peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
0010H 0011H
Current forward active flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
0012H 0013H
Current forward active valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
0014H 0015H
Current reversing active total electric energy
R/W
Each electric energy occupy 4 byte
Dword
0016H 0017H
Current reversing active spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
0018H 0019H
Current reversing Active peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
001AH 001BH
Current reversing active flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
001CH 001DH
Current reversing Active valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
001EH 001FH
Current total reactive electric energy
R/W
Each electric energy occupy 4 byte
Dword
0020H 0021H
Current total reactive spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
0022H 0023H
Current total reactive peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
0024H
Current total reactive flat
R/W
Each electric energy occupy 4
Dword
0025H
electric energy
byte
0026H 0027H
Current total reactive valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
0028H 0029H
Current forward reactive total electric energy
R/W
Each electric energy occupy 4 byte
Dword
002AH 002BH
Current forward reactive spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
002CH 002DH
Current forward reactive spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
002EH 002FH
Current forward reactive flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
0030H 0031H
Current forward reactive valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
0032H 0033H
Current reversing reactive total electric energy
R/W
Each electric energy occupy 4 byte
Dword
0034H 0035H
Current reversing reactive spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
0036H 0037H
Current reversing reactive peak electric energy
R/W
Each electric energy occupy 4 bytes
Dword
0038H 0039H
Current reversing reactive flat electric energy
R/W
Each electric energy occupy 4 bytes
Dword
003AH 003BH
Current reversing reactive valleyelectric energy
R/W
Each electric energy occupy 4 bytes
Dword
003CH
Year, month
R/W
003DH
Day, hour
R/W
003EH
Minute,second
R/W
Communication address
R/W
003FH High byte 003FH Low byte
Communication baudrate
R/W
yy.mm.dd hh.mm.ss 0001-0247 01—9600bps (default) 02—4800bps 03—2400bps 04—1200bps
word word word char
char
0040H
Pulse constant
R
occupy 2 byte
word
0041H
Period of time
R/W
occupy 2 byte
word
0042H
Period of time
R/W
occupy 2 byte
word
R/W
occupy 2 byte
word
0043H
period of time
0044H
period of time
R/W
occupy 2 byte
word
0045H
period of time
R/W
occupy 2 byte
word
0046H
period of time
R/W
occupy two bytes
word
0047H 0048H
table for 1st period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
0049H 004AH
table for 1st period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
004BH 004CH
table for 1st period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
004DH 004EH
table for 1st period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
004FH 0050H
table for 1st period of time table for 1st period of time
R/W R/W
Each period of time occupys Three bytes nn.mm.hh
char
0051H 0052H
table for 1st period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
0053H
reserved
0054H 0055H
table for 2nd period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
0056H 0057H
table for 2nd period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
0058H 0059H
table for 2nd period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
005AH 005BH
table for 2nd period of time
R/W
nn.mm.hh
char
005CH 005D
table for 2ed period of time
R/W
Each period of time occupys Three bytes nn.mm.hh
char
R/W
Each period of time occupys Three bytes nn.mm.hh
char
005EH 005FH
table for 2ed period of time
word
0060H
reserved
word
0061H
voltage of A phase
R
XXX.XV
word
0062
voltage of B phase
R
XXX.XV
word
0063H
voltage of C phase
R
XXX.XV
word
0064H
electricity of A phase
R
XX.XXA
word
0065H
electricity of B phase
R
XX.XXA
word
0066H
electricity of C phase
R
XX.XXA
word
0067H
active power of A phase
R
XXX.XXkW
word
0068H
active power of B phase
R
XXX.XXkW
word
0069H
active power of C phase
R
XXX.XXkW
word
006AH
total active power
R
XXX.XXkW
word
006BH
reactive power of A phase
R
XXX.XXkVar
word
006CH
reactive power of B phase
R
XXX.XXkVar
word
006DH
reactive power of C phase
R
XXX.XXkVar
word
006EH
total reactive power
R
XXX.XXkVar
word
006FH
apparent power of A phase
R
XXXX.XVA
word
0070H
apparent power of b phase
R
XXXX.XVA
word
0071H
apparent power of c phase
R
XXXX.XVA
word
0072H
total apparent power
R
XXXX.XVA
word
0073H
power factor of A phase
R
X.XX
word
0074H
power factor of B phase
R
X.XX
word
0075H
power factor of C phase
R
X.XX
word
0076H
total power factor
R
X.XX
word
0077H
frequency
R
XX.XHz
word
0078H
reserved
R
word 0-No alarm 1-Measurement data error 2- Wrong phase sequence 3- Table data wrong
0079H
status indication
R
char
007AH
reserved
R
007BH 007CH
active maximum demand
R
Each electric energy occupy 4 bytes
Dword
007DH 007EH
Maximum demand for reactive power
R
Each electric energy occupy 4 bytes
Dword
007FH 0080H
Time of occurrence for the active maximum amount
R
mm.dd hh.mm
word
0081H 0082H
Time of occurrence for the reactive maximum amount
R
mm.dd hh.mm
word
0083H 0084H
reversed
R
Dword
0085H 0086H
reversed
R
Dword
0087H 0088H
The number of voltage lost
R
0089H 008AH
reversed
R
008BH 008CH
Time of occurrence for voltage lost
R
008DH 008EH
reversed
R
008FH 0090H
Current month total active electric energy
R/W
Each electric energy occupy 4 byte
Dword
0091H 0092H
Current month total active spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
0093H 0094H
Current month total active peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
0095H 0096H
Current month total active flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
0097H 0098H
Current month total active valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
0099H 009AH
Current month forward active total electric energy
R/W
Each electric energy occupy 4 byte
Dword
009BH 009CH
Current month forward active spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
word
occupy 4 byte
Dword Dword
mm.dd hh.mm
word Dword
009DH 009EH
Current month forward active peak electric energy
R/W
Each electric energy occupy 4 bytes
Dword
009FH 00A0H
Current month forward active flat electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00A1H 00A2H
Current month forward active valley electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00A3H 00A4H
Current month reversing active total electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00A5H 00A6H
Current month reversing active spike electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00A7H 00A8H
Current month reversing active peak electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00A9H 00AAH
Current month reversing active flat electric energy
Each electric energy occupy 4 byte
Dword
00ABH 00ACH
Current month reversing active valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
00AD 00AEH
Current month total reactive electric energy
R/W
Each electric energy occupy 4 byte
Dword
00AFH 00B0H
Current month total reactive spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
00B1H 00B2H
Current month total reactive peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
00B3H 00B4H
Current month total reactive flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
00B5H 00B6H
Current month total reactive valley electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00B7H 00B8H
Current month forward reactive total electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00B9H 00BAH
Current month forward reactive spike electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00BBH 00BCH
Current month forward reactive peak electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00BDH 00BEH
Current month forward reactive flat electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00BFH 00C0H
Current month forward reactive valley electric energy
R/W
Each electric energy occupy 4 bytes
Dword
00C1H 00C2H
Current month reversing reactive total electric energy
R/W
Each electric energy occupy 4 byte
Dword
00C3H 00C4H
Current month reversing reactive spike electric energy
R/W
Each electric energy occupy 4 byte
Dword
00C5H 00C6H
Current month reversing reactive peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
R/W
00C7H 00C8H
Current month reversing reactive flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
00C9H 00CAH
Current month reversing reactive valley electric energy
R/W
Each electric energy occupy 4 byte
Dword
00CBH 00CCH
total active electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00CDH 00CEH
total active spike electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00CFH 00D0H
total active peak electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00D1H 00D2H
total active flat electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00D3H 00D4H
total active valley electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00D5H 00D6H
forward active total electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00D7H 00D8H
forward active spike electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00D9H 00DAH
Ultimo forward active peak electric energy
R/W
Each electric energy occupy 4 byte
Dword
00DBH 00DCH
forward active flat electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00DDH 00DEH
forward active valley electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00DFH 00E0H
reversing active total electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00E1H 00E2H
reversing active spike electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00E3H 00E4H
reversing active peak electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00E5H 00E6H
reversing active flat electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00E7H 00E8H
reversing active valley electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00E9H 00EAH
total reactive electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00EBH 00ECH
ototal reactive spike electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00EDH 00EEH
total reactive peak electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00EFH 00F0H
total reactive flat electric energy of last month
R/W
Each electric energy occupy 4 bytes
Dword
00F1H 00F2H
total reactive valley electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00F3H 00F4H
forward reactive total electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00F5H 00F6H
forward reactive spike electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00F7H 00F8H
forward reactive peak electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00F9H 00FAH
forward reactive flat electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00FBH 00FCH
forward reactive valley electric energy of last month
R/W
Each electric energy occupy 4 byte
Dword
00FDH 00FEH
reversing reactive total electric energy of the last month
R/W
Each electric energy occupy 4 byte
Dword
00FFH 0100H
reversing reactive spike electric energy of the last month
R/W
Each electric energy occupy 4 byte
Dword
0101H 0102H
reversing reactive peak electric energy of the last month
R/W
Each electric energy occupy 4 byte
Dword
0103H 0104H
reversing reactive flat electric energy of the last month
R/W
Each electric energy occupy 4 byte
Dword
0105H 0106H
reversing reactive valley electric energy of the last month
R/W
Each electric energy occupy 4 byte
Dword
0107H 0108H
total active electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0109H 010AH
total active spike electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
010BH 010CH
total active peak electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
010DH 010EH
total active flat electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
010FH 0110H
total active valley electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0111H 0112H
forward active total electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0113
forward active spike electric
R/W
Each electric energy occupy 4
Dword
0114H
energy of the month before last
byte
0115H 0116H
forward active peak electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
0117H 0118H
forward active flat electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
0119H 011AH
forward active valley electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
011BH 011CH
reversing active total electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
011DH 011EH
reversing active spike electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
011FH 0120H
reversing active peak electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0121H 0122H
reversing active flat electric energy of the month before last
Each electric energy occupy 4 byte
Dword
0123H 0124H
reversing active valley electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0125H 0126H
total reactive electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0127H 0128H
total reactive spike electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0129H 012AH
total reactive peak electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
012BH 012CH
total reactive flat electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
012DH 012EH
total reactive valley electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
012FH 0130H
forward reactive total electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
0131H
forward reactive spike
R/W
Each electric energy occupy 4
Dword
R/W
0132H
electric energy of the month before last
bytes
0133H 0134H
forward reactive peak electric energy of the month before last
R/W
Each electric energy occupy 4 bytes
Dword
0135H 0136H
forward reactive flat electric energy
R/W
Each electric energy occupy 4 byte
Dword
0137H 0138H
forward reactive valley electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0139H 013AH
reversing reactive total electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
013BH 013CH
reversing reactive spike electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
013DH 013EH
reversing reactive peak electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
014FH 0140H
reversing reactive flat electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
0141H 0142H
reversing reactive valley electric energy of the month before last
R/W
Each electric energy occupy 4 byte
Dword
Attachment: 1, Belong to Read/ Write: “R” read only ,read this parameter use 03H command ;”R/W” Readable, writable, write parameter use 10H command. write in address of non-listed, or non-writable address is forbidden. 2, The Communication address of electric energy meter is given with delivery, also read out through the software provided by our company. 3, The voltage value detected by electric energy meter is fixed by 2 bit decimal number ,data format is XXX.XX, unit is V, if Communication read out voltage value is 55EEH (21998), then voltage actual value is 219.98v; the measured current value is fixed by 3 bit decimal number, data format is XX.XXX, unit is A, if Communication read out Current value is 50DBH (1499), then Current actual value is 1.499A; 4, The active and reactive power value by electric energy meter is fixed by 2 bits decimal number, data format is XXX.XX,unit is kW, if communication read out the active and reactive power value is 0020H(0032),then the active and reactive power actual value is 0.32kW(kVar);the apparent power value is fixed by 1 bit decimal number, data format is XXXX.X , unit is VA ,if communication read out the apparent power value is CE44H(3300) ,then the apparent power actual value is 330.0VA. 5, The electric energy value measured by electric energy meter occupy 4 bytes, unit is kWh. The high bit is before the low bit, if the reading value is 0012D687H (1234567),
then electric energy Metering value is 1234567×0.01=12345.67kWh. 6, Order of 8-period of time Parameters setting information of above Address Table: 8-period of time Parameters setting information Rate number for 1st period of time NN Terminal time for 1st period of time - minute Terminal time for 1st period of time -hour Rate number for 2st period of time NN Terminal time for 2st period of time - minute Terminal time for 2st period of time - hour Rate number for 8st period of time NN Terminal time for 8st period of time - minute Terminal time for 8st period of time - hour
Note 1.Starting time for 1st period of time 00:00 2. In DDSF1352(ADL100), corresponding relation between rate No. and rate period:01-peak, 02-flat, 03-valley 3.In DTSF1352(ADL300)and DTSD1352(ADL3000), corresponding relation between rate No. and rate period: 01-spike, 02-peak, 03-flat,04-valley