- Dimensions: 100mm*36mm*68mm
- Operating Temperature: -25-55℃
- Output Voltage: AC85-275V
- Accuracy Class: 1%
- Measuring Energy Range: 999999.99 kWh/kVarh
- Phase: single phase
- Model Number: EA4121C-BI/EA4161C-BI
- Max Operating Current: 80A – 99A
- Rated Voltage: 220V
- Power Supply: AC
- Display Type: LCD
- DIY Supplies: ELECTRICAL
- Brand Name: EARUELETRIC
- Origin: Mainland China
- Certification: CE
- Current Adjustable Range: 10-80A (adjustable)
- Function 2: Overcurrent protection
- Function 3: Current Limiter
- Function 4: Remote Control ON / OFF
- Function 5: Energy Consumption Record
- App: Tuya
- Maximum reading of energy: 999999.99 kWh/kVarh
- Pulse Frequency: 1000imp/kWh
- Display screen: LCD with backlight
- is_customized: Yes
- Protocal: Zigbee/WIFI
Our factory can provide OEM service to manufacture this device with your brand, logo, if you get any need, feel free to contact the buyer!
Product function
1.Maximum 80A direct access
2.Standard 2 modulus width, TH35-7.5 DIN rail installation
3.Support two-way electric energy and multi-rate electric energy metering, and provide monthly anddaily electricity consumption statistics
4.Built in relay, supporting remote switching, and providing relay operation records
5.Support the automatic power-off protection function of power consumption parameter monitoringalarm (support up to two alarm monitoring)
Power Supply: 230V AC 50/60Hz
Product specification
1. Over current protection 10A-80A (adjustable) (default: 10A)
2. Voltage meter
3. Ammeter
4. Energy meter
5.Relay (ON/OFF)
6.Pulse Frequency 1000imp/kWh
.Button definition description
General function description
Multi-tariffs function
The multi-tariffs function refers to the function that the meter realizes time-sharing measurement of electric quantity. The power meter divides the 24 hours of a day into several time periods, and then specifies the rate number for each time period. Then the power meter accumulates the amount of electricity in time division according to the pre-divided time period, and stores it to the position of the rate number corresponding to each time period, so as to realize the function of time-division measurement of electricity.
The meter used the method of the tariff number correlation to the starting time point to realize the tariff segment division. The power meter support up to 8 starting time points and up to 4 tariff segments (T1, T2, T3 and T4).
Figure 3-1: The starting time points of the tariff segment
As shown in Figure 3-1, 06:10 designated as the start time of tariff 1 (T1), 12:00 designated as the start time of tariff 2 (T2), 18:00 designated as the start time of tariff 3 (T3), 21:00 designated as the start time of tariff 4 (T4), so tariff 1 time range is 06:10 to 12:00, tariff 2 time range is 12:00 to 18:00, tariff 3 time range is 18:00 to 21:00, tariff 4 time range is 21:00 to tomorrow 06:10.
Note: The tariff parameters can be set by communication commands (Please refer to the relevant communication protocol document for the register address).
3.2. Demand calculation method
The block intervals are sliding, the power meter calculates and update the demand at the sliding speed.
Figure 3-2:Diagram of sliding block interval calculation method
As shown in Figure 3-2, the first demand calculation is made at the 15th minute, and the demand calculation data is between the 0th and the 15th minute. At the 16th minute, do the second demand calculation, and the demand calculation data is between the 1th and the 16th minute. At the 17th minute, do the third demand calculation, and the demand calculation data is between the 2th and the 17th minute.
3.3. Definition of monthly freeze and daily freeze
The DAC4121C meter provides the statistical function of monthly and daily electricity consumption. For the time point of monthly freezing and daily freezing, free setting operation can be realized through Tuya APP. The meter can monitor the current time in real time, when the time reaches the set monthly freezing date, the meter will automatically freeze the monthly electricity consumption; when the time reaches the set daily freezing time, the meter will automatically freeze the daily freezing time.The definition of the freezing rule is detailed below:
3.3.1. Monthly freeze rules
The monthly freezing is set by the value of the date. When the time reaches 00:00 of the set date, the meter will freeze the current electricity quantity used and save it as the electricity consumption of the previous month.Ruling definition of month freezing date: the month frozen date is set before 15 days (including 15 days), when the frozen energy is divided into the electricity consumption of the previous month, and the date of the month freezing is set after 15 days, when the month frozen acts, the frozen energy is divided into the electricity consumption of the current month.
Example 1:
The date of monthly freezing is set to 5, assuming the current is 20:00 on July 4, then when the time reaches 00:00 on July 5, the meter will perform the freezing operation of monthly electricity consumption, dividing the frozen electricity consumption for June (00:00 on June 5 to 00:00 on July 5).
In accordance with the above freezing rules:
Inquiry the July electricity consumption of the meter before 00:00 on July 5 will show 0, because the meter has not reached the monthly freezing date, so the accumulated energy at this time is still the electricity consumption in June.
Example 2:
The date of monthly freeze is set to 27, assuming the current time is 20:00 on July 26, then when the time reaches 00:00 on July 27, the meter will perform the freezing operation of monthly electricity consumption, dividing the frozen electricity consumption for July (00:00 on June 27 to 00:00 July 27).
3.3.2 Daily freeze rules
The daily freezing is set by the value of the time point. When the time reaches the set time point, the meter will freeze the current electricity quantity used and save it as the electricity consumption of the previous day.
Example 1:
The time of daily freezing is set to 3, assuming the current time is 02:00 on July 5, then when the time reaches 03:00 on July 5, the meter will perform the freezing operation of daily electricity consumption, dividing the frozen electricity consumption on July 4 (03:00 on July 4 to 03:00 on July 5).
Example 2:
The time of daily freezing is set to 20, assuming the current time is 02:00 on July 5, then when the time reaches 20:00 on July 5, the meter will perform the freezing operation of daily electricity consumption, dividing the frozen electricity consumption on July 4 (20:00 on July 4 to 20:00 on July 5).
In accordance with the above freezing rules:
If you inquiry the electricity consumption on July 5 at the period between on 20:00 on July 4 to 19:59 on July 5, the meter will show 0.Because the meter has not reached the daily freezing time point, so the accumulated electricity consumption at this time is still the electricity consumption on July 4.
Inquiry the meter electricity consumption on July 5 at the period between on 20:00 July 5 to 19:59 July 6, then the current accumulated electricity consumption value is displayed.
Auxiliary display screen
Under the main display screen, press button 1 for 3 second to enter the screen of auxiliary display. At this point, click button 1 can be scroll the page needs to be viewed. Under the screen of auxiliary display, can press button 1 for 3 second return to the main display screen. If there is no button operation in more than 1 minute under the screen of auxiliary display, the meter will automatically return to the main display screen.
Setting-up
The logical diagram of the parameter setting menu is as follows:
How to enter the "Parameter setting Menu" screen:
Step 1: In the main display screen, press button 2 for 3 second to enter the user password input mode.
Note: The user password input screen is shown in the figure on the right.
Step 2: Enter the correct user password and press button 2 for 3 second to confirm.
How to enter a password:
A: Click button 1 to increase or decrease the number of flashing bits.
B: Click button 2 to move the flashing position to the right.
C: After entering the correct password, press button 2 for 3 second for confirmation. If the password is verified correctly, the power meter will enter the screen of "Parameter Setting menu".
Note: Under the user password input screen, can press 3 second button 1 to return to the main display screen. If there is no button operation in more than 1 minute under this screen, the power meter will automatically return to the main display screen.
Set communication class parameters
Communication parameters include: Modbus address, baud rate, parity bit, stop bit.
Set system class parameters
System class parameters include: user password, reset max. demand.
Set pulse output class parameters
Pulse output class parametersinclude: pulse output type, pulse output rate and pulse output width.
Set demand class parameters
Demand class parametersinclude: demand interval period and sliding time.
View alarm parameters
The alarm parameters include: alarm object, alarm threshold value, current alarm status.
Alarm
EA4121C series products can support the alarm function, which is associated with the inbuilt-relay of the meter. According to the real-time measurement data of the monitored object and the set alarm threshold, if the measured data exceeds the set threshold value, the instrument will automatically disconnect the relay and perform alarm prompt. The alarm function is to compare the measured data of the monitored object with the alarm threshold value every second, to judge whether the alarm threshold value is exceeded, and if it is, the alarm action will be triggered.
5.1. Alarm parameter description
1. Alarm monitoring object: the measurement parameters associated with the alarm. The meter compares the data of the measurement parameters every second to determine whether the alarm threshold is exceeded, so as to decide whether to trigger the alarm. The alarm monitoring object supports six measurement parameters. The specific alarm object is shown in Table 7-1 below.
2. Alarm action delay time: When an alarm event occurs, the alarm action will be performed only after the delay time. If the delay time is set to 0, the alarm action will be executed immediately.
3. Alarm threshold: When the measured data of the monitored object is greater than this threshold, an alarm event will be triggered.
Table 7-1: Alarm monitoring object
Alarm parameter setting process
Step1: Binding the alarm monitoring object.
Step2: Setting the alarm action delay time.
Step3: Setting alarm threshold value.
Note:
1, alarm parameters support communication command setting, the setting menu only provides the function of viewing.
2. Before resetting the alarm monitoring object each time, it is necessary to pay attention to the value of the threshold value to prevent the alarm from being triggered by mistake.
Alarm action process
After the alarm monitoring object is associated, the meter compares the measured data and alarm threshold value of the monitored object every second, if the measured data is greater than the alarm threshold value, the alarm event will be triggered. At this time, the meter will judge whether the "alarm action delay time" is equal to 0. If it is equal to 0, the following alarm action will be executed immediately; if it is not equal to 0, the following alarm action will be performed first.
Alarm action of meter:
1. Disconnect the meter inbuilt-relay.
2. The LCD will display the alarm icon:
3. Light the relay indicator light of the meter.
4. Generates an SOE event and records it to memory.
Note:
1. When the instrument alarms, in order to prevent the closure of the relay before the fault is removed, it is necessary to manually close the relay after troubleshooting the fault. The operation mode of manually closed relay supports key operation and remote communication operation.
2. SOE event information can be read by RS485 communication.
Appendix A– LCD character definition table
Appendix B – Failure code reference table
Appendix C – Alarm prompt comparison table
Appendix D – WIFI indicator status table
Networking Settings(zigbee)
Step 1: After completing the wiring according to the wiringdiagram of the meter, then power on the meter.
Step 2: First, long press the left button (button 1) for 3 seconds toenter the auxiliary interface, and then long press the right button(button 2) for 3 seconds to make the meter enter the networkdistribution mode.
Step 3: Open the Tuya smart APP, and click the Add Devicebutton to select "Smart Meter (Zigbee)" in the "Energy" category
Step 4: Select a Zigbee gateway to be added as required
Step 5: First confirm that the electricity meter is in network mode(indicator light flashes quickly), and then click "Next" button tooperate according to the prompts to complete the networkoperation.
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