JJG 1149-2022 PDF in English
JJG 1149-2022 (JJG1149-2022) PDF English
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Off-board Chargers for Electric Vehicles (for Trial Implementation)
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Standards related to (historical): JJG 1149-2022
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JJG 1149-2022: PDF in English JJF 1149-2022
JJF
NATIONAL METROLOGICAL VERIFICATION REGULATIONS
OF THE PEOPLE’S REPUBLIC OF CHINA
JJG 1149-2022
Off-board Chargers for Electric Vehicles (for Trial
Implementation)
ISSUED ON: JUNE 28, 2022
IMPLEMENTED ON: DECEMBER 28, 2022
Issued by: State Administration for Market Regulation
Table of Contents
Introduction ... 5
1 Scope ... 6
2 Normative references ... 6
3 Terms ... 6
4 Overview ... 7
5 Metrology performance requirements ... 8
5.1 Operate error ... 8
5.2 Clock time error ... 9
6 General technical requirements ... 9
6.1 Identification ... 9
6.2 Testing interface ... 10
6.3 Constant ... 10
6.4 Minimum power variable ... 10
6.5 Display of charging energy ... 10
7 Measuring instrument control ... 10
7.1 First verification, follow-up verification and in-use inspection ... 10
7.2 Verification conditions ... 10
7.3 Verification items and verification methods ... 11
7.4 Processing of verification results ... 16
7.5 Verification period ... 17
Annex A Format for original record of verification ... 18
Annex B Format for inner page of verification certificate/ verification result notification
(Page 2) ... 21
Annex C Format for inner page of verification certificate/ verification result notification
(Page 3) ... 22
Verification Regulation of Off-board Chargers for Electric
Vehicles (for Trial Implementation)
1 Scope
This Regulation applies to the first verification, follow-up verification and in-use
inspection for off-board chargers for electric vehicles.
The verification of off-board chargers for electric vehicles based on statistical sampling
methods can be carried out in accordance with this Regulation.
2 Normative references
This Regulation refers to the following documents:
JJG 842-2017, Electronic Meters for Measuring Direct-current Electrical Energy
JJF 1139, Principle and method for determination verification period of measuring
instruments
NB/T 33001-2018, Specification for electric vehicle off-board conductive charger
For the dated documents, only the versions with the dates indicated are applicable to
this Regulation; for the undated documents, only the latest version (including all the
amendments) is applicable to this Regulation.
3 Terms
The following terms and definitions apply to this document.
3.1 off-board charger
A special device that is fixedly connected to an AC or DC power source, converts its
electrical energy into DC electrical energy, charges the power battery of an electric
vehicle by means of conduction, and has the functions of measuring, storing, and
providing results to users.
3.2 connection point
A connection point that the off-board charger is connected to the electric vehicle.
NOTE: If the output cable is a fixed part of the off-board charger, this point is defined as the
connector at the end of the cable. Otherwise, the connection point is defined as the cable insertion
point of the off-board charger.
3.3 real load test method
A method of verification using the actual operating load.
3.4 virtual load test method
A method that uses the virtual load provided by the charger verification device to verify.
3.5 constant-current charge
A way that the battery is charged with a controlled constant current when the charging
voltage is within the working range.
3.6 constant voltage charge
A way when the charging current is within the working range, the battery is charged
with a controlled constant voltage.
3.7 operate error
DC energy measurement errors of off-board chargers under working conditions.
3.8 test output
A device that provides pulses corresponding to the DC energy measured by off-board
chargers.
3.9 constant
A numerical value representing the relationship between the electric energy recorded
by the off-board charger and the corresponding test output value.
4 Overview
An off-board chargers for electric vehicles (hereinafter referred to as charger) is a
metrology device that provides DC power for electric vehicles. It is mainly composed
of rectification and chopper control unit, display interface or data transmission interface,
metrology module, connection device for conductive charging and other parts. The
schematic diagram of the charger is shown in Figure 1.
The charger converts AC power into DC power through the rectification and chopper
control unit. The DC power is sent to the electric vehicle through the connection device
for conductive charging to meet the charging demand. The metrology module
completes the measurement of DC electric energy, and outputs the measured quantity
to the display interface or data transmission interface.
not marked, the maximum current value is: rated power/[(Umax+Umin)/2]; the minimum current
value is: 5A.
2 For chargers installed before January 1, 2023, if the accuracy level is not marked, it will be
implemented as level 2.
6.2 Testing interface
The technical indicators of the test output and communication interface of the charger
used for verification shall meet the requirements of relevant standards.
6.3 Constant
The charger shall have a pulse output corresponding to the measured DC energy. It shall
be consistent with the constant marked on the nameplate.
6.4 Minimum power variable
The minimum electric energy variable shall be 0.001kW·h.
6.5 Display of charging energy
The charger shall be able to display the charging energy. The number of digits for
electric energy display shall be no less than 6 digits (including at least 3 decimal places).
For chargers with time-sharing charging function, the resolution of clock time display
is not greater than 1s.
7 Measuring instrument control
7.1 First verification, follow-up verification and in-use inspection
The first verification is for a charger that has not been verified. The follow-up
verification is any verification after the first verification. The repaired charger must be
according to the first verification. In-use inspection is an inspection to find out whether
the verification mark or verification certificate of the charger is valid, and whether the
verified charger has been significantly modified.
7.2 Verification conditions
7.2.1 Ambient conditions for verification
When verifying the charger, the following conditions shall be met:
- Verification conditions and their deviations do not exceed those specified in Table
3.
- There shall be no appreciable shock load. The seal of the charger is complete.
b) Verification operate error
Compare the DC power value measured simultaneously by the verification device
and the charger under test, so as to determine the operate error of the charger
under test.
According to the principle, it can be divided into real load test method and virtual
load test method.
1) Real load test method
Connect the charger calibrator and load composition verification device to the
connection point. Use method I or method II at the selected load point.
Compare the DC power values measured simultaneously by the verification
device and the charger under test, so as to determine the operate error of the
charger under test.
Method I:
When both the charging pile calibrator and the inspected charger are working
continuously, the pulse output by the inspected charger is used to control the
counting of the charging pile calibrator to determine the operate error of the
inspected charger. When using this method, use method Ⅱ to check whether
the charger constant is correct.
The operate error γ of the tested charger is calculated according to (1).
Where,
m - the measured pulse number;
m0 - the calculated and determined pulse number, calculated according to
formula (2).
Where,
N - the number of pulses of the tested charger;
C0 - the constant of calibrator, imp/ (kW·h);
CL - the constant of the charger under test, imp/ (kW·h).
NOTE: Select the appropriate pulse number N of the tested charger, so that the
quantization error of the calculated pulse number is not greater than 1/10 of the grade
index of the tested charger.
Method II:
When both the charging pile calibrator and the inspected charger are working
continuously, the operate error of the tested charger is determined by using the
output electric energy indication value of the inspected charger and the electric
energy value measured by the charging pile calibrator.
The operate error γ of the charger under test is calculated according to (3):
Where,
E' - the difference between the indicated value of the output electric energy
when the tested charger stops charging and starts charging, kW·h;
E - the electric energy value measured by the standard meter, kW·h;
γ0 - the established systematic error of the verification device, when no
correction is required, γ0=0.
The charging pile calibrator shall run synchronously with the tested charger.
The ratio (%) of the electric energy value represented by the last word (or the
minimum scale value) of the display of the tested charger to the accumulated
E' shall not be greater than 1/5 of the grade index of the tested charger.
During the verification process, record the error measurement data at least
twice. Take the average value to calculate the operate error.
2) Virtual load test method
Use the verification device. Compare the DC power values measured
simultaneously by the verification device and the tested charger, so as to
determine the operate error of the tested charger. When using the virtual load
test method, the influence of the connection position on the test results shall
be considered.
The standard table method is used to verify the charger according to the
provisions of 1).
Use watt-second method to verify the charger. Use a verifier to measure the
set constant power, or use a standard power source to determine the power.
The quantization error of the number of digits displayed by the verifier or
Where,
T - the reference clock display time, ××h××min××s;
T0 - the display time of the charging pile under inspection, ××h××min××s.
The test results shall meet the requirements of 5.2.
7.4 Processing of verification results
7.4.1 Processing of verification results
7.4.1.1 Judging all data shall be subject to the rounded data.
7.4.1.2 The rounding interval of operate error is 1/10 of the accuracy level of the charger.
7.4.1.3 The rounding interval of the clock time error is 1s.
7.4.2 Rounding off method for measurement data
7.4.2.1 Rounding off method when the rounding off interval is 1: The right side of the
reserved digit is for the reserved digit 1. If it is greater than 0.5, add 1 to the reserved
digit. If it is less than 0.5, the reserved digit remains unchanged. If it is equal to 0.5, the
reserved digit remains unchanged when it is an even number. Add 1 when the reserved
digit is odd.
NOTE: "Reserved digit" refers to the number corresponding to the rounding interval. This value is
called a "reserved digit".
7.4.2.2 Rounding method when the rounding interval is n (n≠1): Divide the measured
data by n. Then round off according to the method of 7.4.2.1. After rounding, multiply
by n, which is the final rounding result.
7.4.3 If all items meet the requirements, it is judged as qualified, otherwise it is judged
as unqualified. Chargers that pass the verification will be issued with a verification
certificate (see Annexes B and C for the format of the verification certificate) and a
verification-pass mark.
7.4.4 A verification-pass charger must be sealed at the position of the electric energy
meter or metrology module used inside it. Splitters that are used separately also need to
be sealed.
NOTE: For chargers installed before January 1, 2023, the implementation of shunt seal
requirements will be suspended until December 31, 2027, under special circumstances.
7.4.5 A test result notification will be issued to the unqualified charger (see Annexes B
and C for the format). Cancel the original verification-pass seal or verification-pass
mark.
...... Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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