DTSY866/DSSY866 Three phase electronic prepaid time-sharing electricity meter (Liquid display built-in relay)

Overview

• The DTSYF866/DSSSYF866 electronic three-phase multi rate prepaid energy meter (hereinafter referred to as the "instrument") adopts advanced ultra-low power large-scale integrated circuit technology and SMT process manufacturing high-tech products. The key components are selected from well-known brands of long-life devices, which improves the reliability and lifespan of the product.

• The electric energy meter consists of a single metering unit and a main control unit, with LCD display, infrared, and RS485 communication functions. This meter has significant advantages such as high measurement accuracy, good stability, strong overload capacity, and high reliability. Can provide advanced and reliable measurement tools for cost control and billing.

Main specifications and parameters

• according to the standard

  serial number	standard	title
  JJG596-2012	National Verification Regulations	Verification Regulations for Electronic Energy Meters
  GB/T 17215.321-2008	National Standard	Level 1 and Level 2 Static AC Active Energy Meters
  GB/T 18460.3-2001	National Standard	IC Card Prepaid Electricity Sales System Part 3: Prepaid Electricity Meter
  GB/T 15284-2002	National Standard	Special requirements for multi rate energy meters
  DL/T 645-2007	Electricity industry standards	Multi functional energy meter communication protocol

  
  

• The electric energy meter meets or exceeds the following standards:

  serial number	voltage	current	Pulse constant imp/kWh	accuracy class
  01	3X220/380V 3X380V	3X1.5（6）A	three thousand and two hundred	1.0 level \ \ \ \ \ \ \ 2.0 level
  02		3X5（20）A	four hundred	1.0 level \ \ \ \ \ \ \ 2.0 level
  03		3X10（40）A	four hundred	1.0 level \ \ \ \ \ \ \ 2.0 level
  04		3X10（60）A	four hundred	1.0 level \ \ \ \ \ \ \ 2.0 level
  05		3X20（80）A	four hundred	1.0 level \ \ \ \ \ \ \ 2.0 level
  06		3X30（100）A	four hundred	1.0 level \ \ \ \ \ \ \ 2.0 level
  Note: Special specifications can be customized.

  
  

• Main specifications and models

  current value		power factor	Percentage error limit
  Directly connect the instrument panel	Transformer instrument		Level 1.0	Level 2.0
  0.05Ib≤I<0.1Ib0.1ib<	0.02In≤I<0.05In0.05in<	one	±1.5	±2.5
  0.1Ib≤I≤Imax	0.05In≤I≤Imax	one	±1.0	±2.0
  0.1Ib≤I<0.2Ib0.2ib<	0.05In≤I<0.1In0.1in<	0.5 (Sensory) 0.8 (capacitive)	±1.5 ±1.5	±2.5 --
  0.2Ib≤I≤Imax	0.1In≤I≤Imax	0.5 (Sensory) 0.8 (capacitive)	±1.0 ±1.0	±2.0 --

  
  

• Basic error

  Starting current: active power ≤ 0.004Ib (1.0 level); Active power ≤ 0.005Ib (2.0 level).

  Stealth: When the voltage line is applied with 115% Un and there is no current in the current circuit, the output pulse of the energy meter shall not exceed one.

  Basic error (balanced load error)

  current value		power factor	Percentage error limit
  Directly connect the instrument panel	Transformer instrument		Level 1.0	Level 2.0
  0.1Ib≤I≤Imax	0.05In≤I≤Imax	one	±2.0	±3.0
  0.2Ib≤I≤Imax	0.1In≤I≤Imax	0.5 (Sensory)	±2.0	±3.0

  
  

  Unbalanced load error

  current value		power factor	Percentage error limit
  Directly connect the instrument panel	Transformer instrument		Level 1.0	Level 2.0
  0.1Ib≤I≤Imax	0.05In≤I≤Imax	one	±2.0	±3.0
  0.2Ib≤I≤Imax	0.1In≤I≤Imax	0.5 (Sensory)	±2.0	±3.0

  Note: (Ib rated current Imax maximum current)

  
  

• Main technical parameters

  Electrical parameters

  Working Voltage	0.8Un ~ 1.15Un
  Voltage line power consumption	≤2W，10VA
  Power consumption of current circuit	≤4VA

  
  

  climatic conditions

  Working temperature range:	（-25~ +60）℃
  Working limit temperature range:	（-30~ +70）℃
  Storage and transportation temperature range:	（-30~ +70）℃

working principle

• The circuit metering part adopts imported specialized metering chips, which can accurately measure active energy. The circuit mainly consists of A/D conversion, power calculation, energy accumulation, and anti creep components. It has the characteristics of high reliability, high precision, and low power consumption. The energy meter is powered by a transformer. The metering chip converts electrical energy into pulses, which are then collected and accumulated by the CPU chip. It also performs functions such as infrared meter reading, 485 meter reading, and LCD display. Far infrared communication uses 38kHz modulation, with a communication distance of no less than 5 meters. Redundant design is adopted for data security, with multiple backups to ensure the reliability of measurement data.

• The product principle diagram is as follows:

  

Basic functions

1. Measurement function

• Time division measurement of active positive and negative electricity can be used to set the combined active electricity and save all current electricity data.

• The active combination method can be set through 04000601 and can only be set to the following values (default is 05):

  01: Total active energy=positive active energy (actual)

  04: Total active energy=Reverse active energy (actual)

  05: Total active energy=forward active energy (actual)+reverse active energy (actual)
  

2. Cost control function

• Cost controlled energy meters are divided into local cost controlled energy meters and remote cost controlled energy meters. Local cost controlled energy meters have both local and remote cost control functions.

• Local cost control function

  1) Local operations such as parameter setting, account opening, and power purchase are carried out through IC card solid-state media.

  2) Local metering and billing functions are available.

  3) Record the data of the last 10 electricity purchases locally.

  4) Local control functions include opening/closing/direct closing, alarm/alarm release.

  5) When using IC cards for various operations, strict security authentication is required.

3. Measurement and monitoring

• Capable of measuring, recording, and displaying operational parameters such as voltage, current, power, and power factor of the current energy meter.

4. Communication interface

• It has modulated infrared and RS485 communication interfaces, and the physical layers of the communication interfaces are independent of each other. Damage to one communication interface does not affect the other interface.

• RS485 communication: The communication baud rate can be flexibly set, with standard rates of 1200bps, 2400bps, 4800bps, 9600bps, and a default of 2400bps; Half duplex. The communication protocol complies with DL/T645-2007 "Multifunctional Table Communication Protocol".

• Infrared communication interface: The default communication rate for modulated infrared is 1200bps; Communication distance: ≥ 5m, communication angle: directly above, left, and right of the central axis | θ | ≥ 30 °, directly below the central axis | θ | ≥ 45 °

• RS485 communication interface: To protect the electricity meter, the RS485 communication interface is electrically isolated from the internal circuit of the energy meter and has a failure protection circuit.

5. Interface output

• Pulse output can be used for calibration or pulse acquisition, with a pulse output width of (80 ± 16) ms.

6. LED indicator

• The energy meter uses three high brightness, long-life LED indicator lights, with the following functions:

  Pulse indicator light: It flashes when measuring active energy and goes off normally.

  Trip indicator light: It lights up when the load switch is disconnected and goes off normally.

  - Alarm indicator light: It lights up when various events alarm and goes off normally.

  
  

• Communication indicator symbol: Microphone on LCD screen when 485 communication is successful“”Shining, usually extinguished.

7. LCD display

• Using a large LCD screen to display battery level and parameters, the display is intuitive and clear, making meter reading convenient.

• It has an automatic loop display mode, and the loop display time can be set (5-20 seconds) when using automatic loop display. The display content can be set through programming.

• LCD backlight (optional).

• Full screen display interface:

  

  
  

  Display items with corresponding Chinese characters or symbols. Please refer to Table 1-1 for an overall overview (for reference only and subject to actual conditions):

  
  

  
  

  Table 1-1: Description of LCD graphics and symbols

  LCD graphics	Instructions
  	1）Screen display number 2）Indicate the current operating level of electricity price (unused) 3) Current, previous month/time - previous December/time electricity consumption, positive/negative, total, peak, off peak, off peak, valley electricity consumption, demand (unused) 4) Step by step electricity price, electricity consumption (unused) 5) Time (unused), account number, table number 6) Current remaining amount, current overdraft amount, hoarding amount 7) Brake alarm
  	1) Data display and corresponding unit symbols 2) Reverse power indication 3) Indicate current rate status (peak, flat, valley) (unused)
  	1）"Indicate the current and backup tiered electricity prices, and indicate that it is operating in the current tiered state. (Not used) 2）"Represents the rates for the first and second time periods/current and backup sets, and indicates that it is operating in the current time period/rate status. (Not used) 3）Current and voltage indication 4）in communication 5）Displayed as account opening status,Display as private key status 6）Programming status indication 7）Battery undervoltage indication (unused) 8）Alarm indication

  
  

8. Event record

• The electricity meter has records of the last 10 programming events, power purchase records, control tripping, closing, and zeroing events.

Appearance, installation and wiring

(For reference only, subject to actual conditions)

• installation dimensions

  Dimensions: (220 × 146 × 71) mm. (Please refer to Figure 3-1)

  Installation dimensions: Three holes form an isosceles triangle, with a center distance of 132mm between the bottom holes and a top hole height of 200 (210) mm.

  
  

• Functional wiring diagram (please refer to Figure 3-2)

  

  
  

• Reference diagram for power terminal wiring (please refer to Figure 3-3, external switch type: three-phase four wire with 220V AC contactor as an example, three-phase three wire with 380V AC contactor as an example)

  
  

install

• Strictly prohibit live installation and wiring!

• The energy meter should be installed indoors as much as possible, and a dedicated instrument box should be used for outdoor installation protection. The installation base plate should be fixed on a sturdy, fire-resistant, and vibration resistant wall surface.

• There should be no corrosive gases in the surrounding air when installing an electric energy meter, and dust, salt spray, etc. should be avoided. When using an electric energy meter, it is necessary to strictly follow the wiring diagram inside the tail cover of the meter. It is recommended to use copper wire for the leads connected to the terminal block. The screws that fix the leads inside the terminal block should be tightened to avoid burning out the electric energy meter due to poor contact and heat generation.

Transportation and Storage

• The electricity meter must be transported and stored in its original packaging condition. The product should not be subjected to severe impact during transportation and unpacking, and should be transported and stored in accordance with GB/T15464-1995 "General Technical Conditions for Packaging of Instruments and Meters". The products are stored in the warehouse and placed on shelves, with a maximum stacking height of five layers. There must be no corrosive gases present in the storage environment.