EV1000-DC系列便携式直流充电桩(机)综合测试仪应用于电动汽车非车载传导式充电机的研发调试、计量检测及第三方检测机构现场检测等。
EV1000-DC-CCS系列便携式直流充电桩(机)测试仪符合IEC 61851-1、IEC 61851-23要求,具备计量检定、故障模拟、协议一致性测试等功能。主要应用于欧标直流充电桩产品的前期研发、在线调试、下线检测、老化试验、功能验证等,也可应用于直流充电桩安装完毕后各项性能测试、通信协议测试、计量检定等。
◉测试仪符合IEC 61851-23、IEC 61851-23要求,具备计量检定、故障模拟、协议一致性测试等功能。
◉配备LAN、RS232、RS485、USB等多种通讯方式,现场操作方便。
◉使用内置精度0.1%(选配0.05%计量高精度计量模组),电流/电压型测试接口,可使用多种方法进行检定;大功率输出负载枪座,方便快速连接负载设备,提高使用效率。
◉测试仪真实模拟充电过程和各种故障,辅助电源系统验证,避免电动汽车实车检测装置所带来的测试内容不全面、测试使用不方便、车辆动力电池充电和放电耗时耗力、频繁充电导致电池寿命缩短等问题。
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品名 |
欧标直流充电桩(机)综合测试仪 |
|
型号 |
EV1000-DC-CCS |
|
输入枪座 |
直流充电接口/1个DC1000V200A/300A/600A |
|
检测对象 |
欧标直流充电桩 |
|
电压/电流采样 |
±0.05%RD+±0.005%RG(0V≤U≤1500V)/±0.05%RD+±0.005%RG(0A≤I≤300A) |
|
电能测量 |
±0.05%RD |
|
电池电压模拟范围 |
10-1000VDC |
|
采集通道数 |
12个通道采集 |
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相位测量 |
相位测量范围:0.00°-359.99°,相位测量准确度:0.02°(30V≤U≤380V,10A≤l≤63A)≤63A) |
|
电能脉冲输入 |
校电能表脉冲常数(rkWh): 设置范围:1-2000.000.000/校验圈数设置范围: 1-999,999,999;最高接收脉冲频率为50kHz |
|
日计时脉冲输入时脉 |
时钟频率(HZ)设置范围:0.01-50,000.00,校验圈数设置范围:1-999,999,999,最高接收脉冲频率为50KHZ |
|
GPS对时精度 |
时钟准确度:土0.2ppm |
|
温湿度测量 |
温度测量范围:-25℃-55℃,温度测量准确度:土0.3℃,温度测量分辨率:0.1℃/湿度测量范围:0%-100%,湿度测量准确度:±4%,湿度测量分辨率:1% |
|
大气压测量 |
大气压测量范围:300-1000hPa(海拔-500m-9000m),大气压测量相对精度:土0.24hPa(±2m),大气压测量绝对精度:土2hPa |
|
工作电源 |
100-240VAC,50Hz;35w |
|
通信接口 |
LAN、RS232、RS485、USB |
|
负载功率 |
无内置负载(可外接负载设备≤250A) |
|
尺寸重量 |
L561*W455*H265mm |
|
显示方式 |
10.1寸触摸屏(工控一体机) |
|
选配功能 |
£上位机软件 £内置电池 £计量模组 £录波模组 |
|
使用环境 |
工作温度:-20℃~50℃ |
|
存储温度:-30℃~70℃ |
|
|
相对湿度:≤90%Rh(10℃至30℃);≤75%Rh(30℃至40℃);≤45%Rh(40℃至50℃) |
|
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参考标准 |
ISO 15118、DIN 70121、DIN 70122、 IEC 61851-1、IEC61851-23、IEC 62196 |
|
备注 |
|
序号 |
测试项目 |
参考标准 |
|
1 |
Oscillator frequency and generator voltage test |
IEC 61851-1 A.4.4 |
|
2 |
Duty cycle test |
IEC 61851-1 A.4.5 |
|
3 |
Pulse wave shape test |
IEC 61851-1 A.4.6 |
|
4 |
Test of interruption of the protective conductor |
IEC 61851-1 A.4.8 |
|
5 |
Test of short-circuit values of the voltage |
IEC 61851-1 A.4.9 |
|
6 |
Continuous continuity checking of the protective conductor |
IEC 61851-23 6.3.1.2 |
|
7 |
Verification that the EV is properly connected to the EV supply equipment |
IEC 61851-23 6.3.1.3 |
|
8 |
Energization of the power supply to the EV |
IEC 61851-23 6.3.1.4 |
|
9 |
De-energization of the power supply to the EV |
IEC 61851-23 6.3.1.5 |
|
10 |
Compatibility check |
IEC 61851-23 6.3.1.104 |
|
11 |
Insulation resistance check before energy transfer |
IEC 61851-23 6.3.1.105 |
|
12 |
Short-circuit check before energy transfer |
IEC 61851-23 6.3.1.109 |
|
13 |
User initiated shutdown |
IEC 61851-23 6.3.1.110 |
|
14 |
Voltage limitation between side B live parts (DC+ and DC-)and protective conductor |
IEC 61851-23 6.3.1.112 |
|
15 |
Shutdown of the EV supply equipment |
IEC 61851-23 6.3.1.113 |
|
16 |
Sleep mode of the EV supply equipment |
IEC 61851-23 6.3.2.101 |
|
17 |
Normal startup |
IEC 61851-23 CC.3.2 |
|
18 |
Normal shutdown or pause after energy transfer |
IEC 61851-23 CC.3.3 |
|
19 |
Error and emergency handling |
IEC 61851-23 CC.3.4 |
|
20 |
Loss of electrical continuity of the control pilot conductor |
IEC 61851-23 CC.4.3 |
|
21 |
Loss of electrical continuity of the proximity detection conductor |
IEC 61851-23 CC.4.4 |
|
22 |
Voltage check at initialization |
IEC 61851-23 CC.4.5 |
|
23 |
Loss of electrical continuity of the protective conductor |
IEC 61851-23 CC.4.7 |
|
24 |
Sleep mode and communication session restart methods |
IEC 61851-23 CC.5.2 |
|
25 |
Compatibility check |
IEC 61851-23 CC.5.6 |
|
26 |
Measuring current and voltage at side B |
IEC 61851-23 CC.6.3 |
|
27 |
Compatibility check |
IEC 61851-23 CC.7.5.1 |
|
28 |
Normal startup |
IEC 61851-23 CC.7.5.2 |
|
29 |
Wake up of EV supply equipment by EV |
IEC 61851-23 CC.7.5.3 |
|
30 |
Loss of electrical continuity of the control pilot conductor |
IEC 61851-23 CC.7.5.4 |
|
31 |
Protective conductor continuity checking |
IEC 61851-23 CC.7.5.5 |
|
32 |
Protection against overvoltage at the vehicle connector |
IEC 61851-23 CC.7.5.7 |
|
33 |
Emergency shutdown in case of proximity pilot disconnection |
IEC 61851-23 CC.7.5.8 |
|
34 |
0A mode during energy transfer |
IEC 61851-23 CC.7.5.12 |
|
35 |
Insulation resistance checks before pre-charge(cable-check) |
IEC 61851-23 CC.7.5.15 |
|
36 |
Insulation resistance check to detect fault state during energy transfer |
IEC 61851-23 CC.7.5.16 |
|
37 |
Short-circuit between the control pilot conductor and the protective conductor |
IEC 61851-23 CC.7.5.17 |
|
38 |
Test of measured voltage values during welding detection |
IEC 61851-23 CC.7.5.19 |
|
39 |
Normal shutdown by EV supply equipment |
IEC 61851-23 CC.7.5.20 |
|
40 |
Normal shutdown by EV |
IEC 61851-23 CC.7.5.21 |
|
41 |
Short-circuit check before energy transfer |
IEC 61851-23 CC.7.5.22 |
|
42 |
Functional check of the insulation monitoring device |
IEC 61851-23 CC.7.5.23 |
|
43 |
通讯协议一致性测试 |
DIN 70121 DIN 70122 ISO 15118 |
