Fluke 1760TR three-phase power quality recorder
Meet stringent Class A standards for power quality testing
Fluke 1760TR three-phase power quality recorder fully conforms to IEC 61000-4-30 Class A standards, and is very suitable for advanced power quality analysis and unified standard testing. This power quality monitoring tool is designed to analyze utility and industrial distribution systems in medium and low voltage grids, allowing users the flexibility to customize thresholds, algorithms, and measurement options. The 1760 Power logger captures detailed information about selected parameters
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Detailed interference analysis - Perform quick transient analysis to find the root cause of device faults for future improvement and preventive maintenance. Fast transient option and 6000 V range, allowing it to capture very short pulses (e.g., lightning strikes)
Meet Grade A service quality requirements - Verify the power quality at the cable inlet. With Class A standard certification,Fluke 1760 allows a variety of rigorous verification
Event correlation at multiple locations Using GPS time synchronization, users can quickly detect the location of the first failure (inside or outside the facility)
Electrical isolation and DC coupling - Allows comprehensive measurement of different electrical energy systems. For example, a UPS system fails by synchronously recording battery voltage and power output.
Power quality and power load analysis - Assess basic power quality prior to installation to ensure compliance with critical system requirements; And to verify the capacity of the power system before adding loads
Four Fluke 1760 models are available :
| Product function | Fluke 1760 basic model | Fluke 1760TR Basic model | Fluke 1760 | Fluke 1760TR |
| Power quality statistics in compliance with EN50160 | • | • | • | • |
| List of voltage events (voltage plunge, surge and interruption) | • | • | • | • |
| Uninterrupted record : | ||||
| Voltage | • | • | • | • |
| Current | • | • | • | • |
| Electric energy P,Q,S | • | • | • | • |
| Power coefficient | • | • | • | • |
| kWh | • | • | • | • |
| Flicker | • | • | • | • |
| Out of balance | • | • | • | • |
| Frequency | • | • | • | • |
| Voltage、Current谐波(可达 50th)/间谐波 | • | • | • | • |
| THD | • | • | • | • |
| Power signal | • | • | • | • |
| Trigger record | • | • | • | • |
| On-line modes (oscilloscope, transient and event) | • | • | • | • |
| Fast transient analysis up to 10 MHz |
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| 4, 600V Voltage探针 |
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| 4 个双量程灵活Current探针 (1000 A / 200 A ac) |
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| GPS time synchronization receiver |
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| Memory | 2 GB flash memory | |||
Product specification: Fluke 1760TR three-phase power quality recorder
| An overview of measurement functions | ||
| Statistical evaluation | The power quality statistics conform to the EN50160 standard and to DISDIP tables like ITIC,CEBEMA, and ANSI | |
| Event list | 检测Voltage骤降、骤升和中断,并存储在Event list中.同时,任何启动的触发器会生成一个事件,并添加到此列表. | |
| Event list显示事件发生的准确时间,以及持续时间和幅度.可依据这些事件的数种属性进行分类,并选择其中一个做进一步的故障根源分析. | ||
| If the trigger is activated, it can store true valid (RMS) values, transients, and fast transients | ||
| Uninterrupted record | Fluke 1760 recorded the RMS values and corresponding minimum and maximum values of the following parameters:
• Voltage • Current • Electric energy P,Q,S • Power factor • kWh • Flicker • Imbalance • Frequency • 谐波/间谐波连续采用以下时间累积:日、10 分钟、自由间隔,例如:15 分钟、2 小时< |
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| Trigger record | 有效值 | 可在 10 ms(1/2 周期)、20 ms(1 个周期)、200 ms(10/12 个周期)或 3s(150/180 个周期)之间调整累积时间. |
| RMS 值、谐波和间谐波的计算与电源Frequency同步. | ||
| 谐波和间谐波的基本累积时间为 200ms | ||
| 示波器 | 有 8 个通道的采样率均为 10.24 kHz | |
| 快速瞬态 | 快速瞬态的 1-4 FFT 通道的采样率可选 100 kHz 至 10 MHz | |
| Power signal | 相位和 N 导线,Voltage和Current | |
| 联机模式 | 可变刷新率.此功能允许用户验证仪表设置,并快速浏览示波器、瞬态和事件. | |
| 一般数据 | ||
| 固有不确定度 | 请参阅参考条件,提供两年保证 | |
| 质量体系 | 根据 ISO 9001: 2000 开发、制造 | |
| 环境条件 | 操作温度量程 | 0 °C 至 +50 °C;32 °F 至 +122 °F |
| 工作温度范围 | -20 °C 至 +50 °C;-4 °F 至 +122 °F | |
| 存储温度范围 | 20 °C 至 +60 °C;-4 °F 至 140 °F | |
| 参考温度 | 23 °C ±2 K;74 °F ±2 K | |
| 气候等级 | B2 (IEC 654-1),-20°C 至 +50°C;-4°F 至 +122°F | |
| 工作海拔 | 2000 m:600 V CAT IV¹,电源:300 V CAT III 5000 m: 600 V CAT III¹,电源:300 V CAT II | |
| 1. 视传感器而定 | ||
| 参考条件 | 环境温度 | 23 °C ±2 K;74 °F ±2 K |
| 电源 | 230 V ±10% | |
| 电源Frequency | 50 Hz / 60 Hz | |
| 信号 | 标明的标称输入VoltageUdin | |
| 平均 | 10 分钟间隔 | |
| 外壳 | 绝缘、坚固塑料外壳 | |
| 电磁兼容性 (EMC) | 辐射标准 | A 类,符合 IEC/EN 61326-1 标准 |
| 抗扰性 | IEC/EN 61326-1 | |
| 电源 | 量程 | 交流:83 V 至 264 V,45 至 65 Hz |
| Direct current:100 V 至 375 V | ||
| 安全等级 | IEC/EN 61010-1 第 2 版 | |
| 300 V CAT III | ||
| 功耗 | 镍氢,7.2 V,2.7 小时 | |
| 电池组 | 如果电源出现故障,内置电池可继续供电多达 40 分钟.之后,或在电池耗尽的情况下,Fluke 1760 关闭;电源Voltage恢复后,可以使用先前的设置继续进行测量.用户可以自行更换电池. | |
| 显示屏 | Fluke 1760 配有指示以下各项状态的 LED 指示灯:8 个通道、相序、电源(电源或蓄电池)、内存使用、时间同步和数据传输. | |
| 电源指示灯 |
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| 每个通道的 3 色指示灯用于表示 |
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| 数据Memory | 2 GB flash memory | |
| 内存模式 | 线性 | |
| 接口 | 以太网 (100MB/s),兼容 Windows® XP、7 和 8、RS 232,外部调制解调器(通过 RS 232) | |
| RS 232 的波特率 | 9600 波特至 115K 波特 | |
| 尺寸(高x宽x深) | 325 x 300 x 65 mm;2.8 x 11.8 x 2.6 in | |
| 重量 | 约4.9 kg;10.8 lbs. (无配件) | |
| 保修期 | 2 年 | |
| 校准时间间隔 | 对于 A 类建议 1 年,其他 2 年 | |
| 信号调节 | ||
| 50 Hz 系统范围 | 50 Hz ±15%(42.5 Hz 到 57.5 Hz) | |
| 60 Hz 系统范围 | 60 Hz ±15%(51 Hz 到 69 Hz) | |
| 分辨率 | 16ppm | |
| 50 Hz 电源Frequency的采样Frequency | 10.24 kHz,采样率与电源Frequency同步. | |
| Frequency测量的不确定度 | <20 ppm | |
| 内部时钟的不确定度 | <1s/天 | |
| 测量时间间隔 | 根据 IEC 61000-4-30 Class-A 进行间隔值合计 | |
| 小、值 | 1/2 周期,例如:10 ms RMS 值 (50 Hz) | |
| 瞬变 | 每个通道的采样率范围为 100 kHz 至 10 MHz | |
| 谐波 | 符合 IEC 61000-4-7:2002 标准:200 ms | |
| Flicker | 符合 EN 61000-4-15:2003 标准:10 分钟 (Pst),2 小时 (Plt) | |
| 测量输入 | ||
| 输入数量 | 用于Voltage和Current测量的 8 个Current隔离输入. | |
| 传感器安全性 | 600 V CAT IV(取决于传感器) | |
| 基本安全等级 | 300 V CAT III | |
| 额定Voltage (rms) | 100 mV | |
| 范围(峰值) | 280 mV | |
| 过载容量 (rms) | 1000 V(连续) | |
| Voltage上升率 | 15 kV / µs | |
| 输入电阻 | 1 MΩ | |
| 输入电容 | 5 pF | |
| 输入滤波器 | 每个通道都配有一个无源低通滤波器、抗混滤波器和一个 16 位 A/D 转换器.与通用石英控制时钟脉冲同步对有通道进行采样.
滤波器可防止Voltage瞬变,并限制信号的上升率,降低高频分量,特别是NoiseVoltage过 A/D 转换器采样率的一半 80 分贝的情况,从而在极大振幅范围内实现非常小的测量误差.这在极端操作条件下(如转换器输出端的瞬态Voltage)也是有效的. |
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| 不确定度 | ||
| 参考条件下的不确定度 | 包含Voltage传感器的不确定度符合 IEC 61000-4-30 Class-A.有Voltage传感器都适用于高达 5 kHz 的Direct current | |
| 传感器 1000 V | 0.1% Udin = 480 V 和 600 V P-N | |
| 传感器 600 V | 0.1% Udin = 230 V P-N | |
| 谐波的固有不确定度 | I 类,符合 EN 61000-4-7:2002 标准 | |
| 参考条件 | 23°C ± 2 K <60 % rH;74°F ± 2 K <60 % rH | |
| 预热仪器 > 3 小时 | ||
| Power Supply: 100 V to 250 V AC | ||
| Temperature drift | 100 ppm / K | |
| Aging | < 0.05percent/ year | |
| Common-mode rejection ratio | 比;100分贝(50赫兹)—— | |
| Temperature drift | Change in increase due to temperature: < 0.005 percent/K | |
| Aging | 由于Aging造成的增幅变化:<0.04 %/年 | |
| Noise | NoiseVoltage,短路输入:<40 µV | |
| Direct current | ± (0.2percent rdg 0.1percent Sensor) | |
