No. | parte # | Fabricante | Descripción | Hoja de Datos |
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Silergy |
3-Phase Energy Meter Wh Accuracy < 0.1% Over 2,000:1 Current Range Exceeds IEC 62053/ANSIC 12.20 Voltage Reference < 10ppm/C (71M6513H) < 40ppm/°C (71M6513) Six Sensor Inputs—VDD Referenced Auxiliary Analog Input for Neutral Current Low Jitter Wh/VARh Pulse |
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Silergy |
Energy Meter include an SPI interface, advanced power management, ultra-low-power operation in active and battery modes, 3KB/5KB shared RAM, and 32KB/64KB/128KB flash memory that can be programmed in the field with code and/or data during meter operation and the |
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Silergy |
3-Phase Energy Meter Wh Accuracy < 0.1% Over 2,000:1 Current Range Exceeds IEC 62053/ANSIC 12.20 Voltage Reference < 10ppm/C (71M6513H) < 40ppm/°C (71M6513) Six Sensor Inputs—VDD Referenced Auxiliary Analog Input for Neutral Current Low Jitter Wh/VARh Pulse |
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Silergy |
Energy Meter The 71M6541D/71M6541F/71M6541G/71M6542F/71M6542G (71M654x) are 4th-generation single-phase metering SoCs with a 5MHz 8051compatible MPU core, low-power RTC with digital temperature compensation, flash memory, and LCD driver. Our Single Converter Tec |
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Silergy |
Energy Meter to the Teridian flagship 71M6513 polyphase meters, including an SPI interface, advanced power management with < 1µA sleep current, 4KB shared RAM, and 128KB (71M6533/H, 71M6534), or 256KB (71M6533G, 71M6534H) flash, which can be programmed in the fie |
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Silergy |
Isolated Sensor • Reduce BOM by Replacing Expensive Current Transformers with Current Shunts • Compatible with Shunt Resistors as low as 50 • Accurate Measurement • 22-Bit ADC • On-Chip Power Monitoring • Exceeds IEC 62053/ANSI C12.20 Standards • Galvanic Isolatio |
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Silergy |
Isolated Sensor • Reduce BOM by Replacing Expensive Current Transformers with Current Shunts • Compatible with Shunt Resistors as low as 50 • Accurate Measurement • 22-Bit ADC • On-Chip Power Monitoring • Exceeds IEC 62053/ANSI C12.20 Standards • Galvanic Isolatio |
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Silergy |
Energy Meter ● SoC Integration and Unique Isolation Technique Reduces BOM Cost Without Sacrificing Performance • 0.1% Typical Accuracy Over 2000:1 Current Range • Exceeds IEC 62053/ANSI C12.20 Standards • Four-Quadrant Metering • 46-64Hz Line Frequency Rang |
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Silergy |
Energy Meter to the Teridian flagship 71M6513 polyphase meters, including an SPI interface, advanced power management with < 1µA sleep current, 4KB shared RAM, and 128KB (71M6533/H, 71M6534), or 256KB (71M6533G, 71M6534H) flash, which can be programmed in the fie |
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Silergy |
Energy Meter to the Teridian flagship 71M6513 polyphase meters, including an SPI interface, advanced power management with < 1µA sleep current, 4KB shared RAM, and 128KB (71M6533/H, 71M6534), or 256KB (71M6533G, 71M6534H) flash, which can be programmed in the fie |
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Silergy |
Energy Meter include an SPI interface, advanced power management, ultra-low-power operation in active and battery modes, 3KB/5KB shared RAM, and 32KB/64KB/128KB flash memory that can be programmed in the field with code and/or data during meter operation and the |
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Silergy |
Single-Phase Energy Meter APRIL 2016 Wh accuracy < 0.1% over 2000:1 range Exceeds IEC 62053/ANSIC 12.20 Voltage reference < 10ppm/C -- 71M6511H, < 50ppm/°C -- 71M6511 Three sensor inputs - VDD referenced Low jitter Wh/VARh pulse outputs Pulse count for pulse ou |
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Silergy |
Single-Phase Energy Meter APRIL 2016 Wh accuracy < 0.1% over 2000:1 range Exceeds IEC 62053/ANSIC 12.20 Voltage reference < 10ppm/C -- 71M6511H, < 50ppm/°C -- 71M6511 Three sensor inputs - VDD referenced Low jitter Wh/VARh pulse outputs Pulse count for pulse ou |
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Silergy |
Energy Meter 0.1% Typical Accuracy Over 2000:1 Current Range Exceeds IEC 62053/ANSI C12.20 Standards Seven Sensor Inputs with Neutral Current Measurement, Differential Mode Selectable for Current Inputs Selectable Gain of 1 or 8 for One Current Input to S |
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Silergy |
Energy Meter Wh accuracy < 0.1% over 2000:1 current range Exceeds IEC62053/ANSI C12.20 standards Four sensor inputs Low-jitter Wh and VARh plus two additional pulse test outputs (4 total, 10 kHz maximum) with pulse count Four-quadrant metering Tamper |
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Silergy |
Energy Meter Wh accuracy < 0.1% over 2000:1 current range Exceeds IEC62053/ANSI C12.20 standards Four sensor inputs Low-jitter Wh and VARh plus two additional pulse test outputs (4 total, 10 kHz maximum) with pulse count Four-quadrant metering Tamper |
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Silergy |
Energy Meter Wh accuracy < 0.1% over 2000:1 current range Exceeds IEC62053/ANSI C12.20 standards Four sensor inputs Low-jitter Wh and VARh plus two additional pulse test outputs (4 total, 10 kHz maximum) with pulse count Four-quadrant metering Tamper |
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Silergy |
Metrology Processors 0.1% Typical Accuracy Over 2000:1 Current Range Exceeds IEC 62053/ANSI C12.20 Standards Seven Sensor Inputs with Neutral Current Measurement, Differential Mode Selectable for Current Inputs Selectable Gain of 1 or 8 for One Current Input to S |
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Silergy |
Isolated Sensor • Reduce BOM by Replacing Expensive Current Transformers with Current Shunts • Compatible with Shunt Resistors as low as 50 • Accurate Measurement • 22-Bit ADC • On-Chip Power Monitoring • Exceeds IEC 62053/ANSI C12.20 Standards • Galvanic Isolatio |
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Silergy |
Isolated Sensor • Reduce BOM by Replacing Expensive Current Transformers with Current Shunts • Compatible with Shunt Resistors as low as 50 • Accurate Measurement • 22-Bit ADC • On-Chip Power Monitoring • Exceeds IEC 62053/ANSI C12.20 Standards • Galvanic Isolatio |
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