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ADE7759ARS Datasheet(PDF) 8 Page - Analog Devices |
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ADE7759ARS Datasheet(HTML) 8 Page - Analog Devices |
8 / 32 page REV. 0 ADE7759 –8– Pin No. Mnemonic Description 12 ZX Voltage Waveform (Channel 2) Zero Crossing Output. This output toggles logic high and low at the zero crossing of the differential signal on Channel 2—see Zero Crossing Detection section. 13 SAG This open drain logic output goes active low when either no zero crossings are detected or a low voltage threshold (Channel 2) is crossed for a specified duration. See Line Voltage Sag Detec- tion section. 14 IRQ Interrupt Request Output. This is an active low open drain logic output. Maskable interrupts include Active Energy register rollover, Active Energy register at half-full, zero crossing, SAG, and arrivals of new waveform samples—See Interrupts section. 15 CLKIN Master Clock for ADCs and Digital Signal Processing. An external clock can be provided at this logic input. Alternatively, a parallel resonant AT crystal can be connected across CLKIN and CLKOUT to provide a clock source for the ADE7759. The clock frequency for specified opera- tion is 3.579545 MHz. Ceramic load capacitors of between 10 pF to 30 pF should be used with the gate oscillator circuit. Refer to crystal manufacturers data sheet for load capacitance requirements. 16 CLKOUT A crystal can be connected across this pin and CLKIN as described above to provide a clock source for the ADE7759. The CLKOUT pin can drive one CMOS load when either an external clock is supplied at CLKIN or a crystal is being used. 17 CS Chip Select. Part of the 4-wire SPI Serial Interface. This active low logic input allows the ADE7759 to share the serial bus with several other devices. See Serial Interface section. 18 SCLK Serial Clock Input for the Synchronous serial interface. All serial data transfers are synchronized to this clock—see Serial Interface section. The SCLK has a Schmitt-trigger input for use with a clock source that has a slow edge transition time, e.g., opto-isolator outputs. 19 DOUT Data Output for the Serial Interface. Data is shifted out at this pin on the rising edge of SCLK. This logic output is normally in a high impedance state unless it is driving data onto the serial data bus—see Serial Interface section. 20 DIN Data Input for the Serial Interface. Data is shifted in at this pin on the falling edge of SCLK—see Serial Interface section. TERMINOLOGY MEASUREMENT ERROR The error associated with the energy measurement made by the ADE7759 is defined by the following formula: Percentage Error Energy registered by the ADE True Energy True Energy = 7759 – PHASE ERROR BETWEEN CHANNELS The digital integrator and the HPF1 (High-Pass Filter) in Channel 1 have nonideal phase response. To offset this phase response and equalize the phase response between channels, two phase correction networks are placed in Channel 1: one for the digital integrator and the other for the HPF1. Each phase correction network corrects the phase response of the corresponding com- ponent and ensures a phase match between Channel 1 (current) and Channel 2 (voltage) to within ±0.1° over a range of 45 Hz to 65 Hz and ±0.2° over a range 40 Hz to 1 kHz. POWER SUPPLY REJECTION This quantifies the ADE7759 measurement error as a percent- age of reading when the power supplies are varied. For the ac PSR measurement a reading at nominal supplies (5 V) is taken. A second reading is obtained with the same input signal levels when an ac (175 mV rms/120 Hz) signal is intro- duced onto the supplies. Any error introduced by this ac signal is expressed as a percentage of reading—see Measurement Error definition above. For the dc PSR measurement a reading at nominal supplies (5 V) is taken. A second reading is obtained with the same input signal levels when the supplies are varied ±5%. Any error introduced is again expressed as a percentage of reading. ADC OFFSET ERROR This refers to the dc offset associated with the analog inputs to the ADCs. It means that with the analog inputs connected to AGND the ADCs still see a dc analog input signal. The magnitude of the offset depends on the gain and input range selection—see characteristic curves. However, when HPF1 is switched on, the offset is removed from Channel 1 (current) and the power calcu- lation is not affected by this offset. The offsets may be removed by performing an offset calibration—see Analog Inputs section. GAIN ERROR The gain error in the ADE7759 ADCs is defined as the difference between the measured ADC output code (minus the offset) and the ideal output code—see Channel 1 ADC and Channel 2 ADC. It is measured for each of the input ranges on Channel 1 (0.5 V, 0.25 V and 0.125 V). The difference is expressed as a percentage of the ideal code. GAIN ERROR MATCH The Gain Error Match is defined as the gain error (minus the offset) obtained when switching between a gain of 1 (for each of the input ranges) and a gain of 2, 4, 8, or 16. It is expressed as a percentage of the output ADC code obtained under a gain of 1. This gives the gain error observed when the gain selection is changed from 1 to 2, 4, 8, or 16. PIN FUNCTION DESCRIPTIONS (continued) |
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