- 8-bit ADC, 8 conversions per second
- Accuracy: ±0.02% of FS maximum
- Resolution: 0.01% of FS (4 digits)
- Common mode rejection: 100dB at 50/60Hz
- Zero drift: ±1 count maximum (autozero)
- Voltage drop: ±0.1V maximum
- Input impedance of ≤±1V input =100MΩ minimum and ≥±5V input =1MΩ minimum
- Operating temperature of -25°C to +70°C
Analog Input
- 8 conversions per second
- Accuracy: ±0.02% of FS maximum
- Resolution: 0.01% of FS (4 digits)
- Common mode rejection: 100dB at 50/60Hz
- Zero drift: ±1 count maximum (autozero)
- Voltage drop: ±0.1V maximum
- Input impedance of ≤±1V input =100MΩ minimum and ≥±5V input =1MΩ minimum
- Operating temperature of -25°C to +70°C
- 8-bit ADC, 8 conversions per second
- Accuracy: ±0.02% of FS maximum (0.04% of FS for 4-20mA option)
- Resolution: 0.01% of FS (4 digits) (0.04% of FS for 4-20mA option)
- Common mode rejection: 100dB at 50/60Hz
- Zero drift: ±1 count maximum (autozero)
- Voltage drop: ±0.1V maximum
- Operating temperature of -25°C to +70°C
- 8 conversions per second
- Accuracy: ±0.02% of FS maximum (0.04% of FS for 4-20mA option)
- Resolution: 0.01% of FS (4 digits) (0.04% of FS for 4-20mA option)
- Common mode rejection: 100dB at 50/60Hz
- Zero drift: ±1 count maximum (autozero)
- Voltage drop: ±0.1V maximum
- Operating temperature of -25°C to +70°C
- 8-bit ADC, 8 conversions per second
- User selectable °C or °F
- Accuracy (overall, error from all sources, between 0-40°C ambient): ±1.0°C maximum (J, K, T, E) and ±2.5 °C maximum (R, S, B, C)(300°C TO FS)
- Resolution: ±1°
- Common mode rejection: 100dB at 50/60Hz
- Input impedance: 100MΩ minimum
- Lead resistance effect: <20μV per 350Ω
- Open thermocouple and overrange indication
- Automatic cold junction compensation and linearization
- Operating temperature of -25°C to +70°C
- 8 conversions per second
- User selectable °C or °F
- Accuracy (overall, error from all sources, between 0-40°C ambient): ±1.0°C maximum (J, K, T, E) and ±2.5 °C maximum (R, S, B, C)(300°C TO FS)
- Resolution: ±1°
- Common mode rejection: 100dB at 50/60Hz
- Input impedance: 100MΩ minimum
- Lead resistance effect: <20μV per 350Ω
- Open thermocouple and overrange indication
- Automatic cold junction compensation and linearization
- Operating temperature of -25°C to +70°C
- 8-bit ADC, 8 conversions per second
- User selectable °C or °F
- Accuracy: ±0.3°C maximum
- Resolution: ±0.1° (C or F)
- Common mode rejection: 100dB at 50/60Hz
- Input connections: 2-, 3- or 4-wire
- Lead resistance effect: 3-wire – 2.5°C per Ω of imbalance, 4-wire – negligible
- Max lead resistance: 50Ω
- Automatic linearisation and lead compensation
- Operating temperature of -25°C to +70°C
- 8 conversions per second
- User selectable °C or °F
- Accuracy: ±0.3°C maximum
- Resolution: ±0.1° (C or F)
- Common mode rejection: 100dB at 50/60Hz
- Input connections: 2-, 3- or 4-wire
- Lead resistance effect: 3-wire – 2.5°C per Ω of imbalance, 4-wire – negligible
- Max lead resistance: 50Ω
- Automatic linearisation and lead compensation
- Operating temperature of -25°C to +70°C
- 8-bit ADC, 8 conversions per second
- Accuracy: ±0.05% of FS maximum
- Resolution: 10μV (mV spans) and 0.02% of FS (V spans)
- Common mode rejection: 100dB at 50/60Hz
- Excitation voltage: 5V, 8V or 10V dc @ 60mA maximum
- Offset Control: Full input range
- Input burnout protection to 30Vdc
- Zero drift: +/-1μV/deg C maximum
- Span temperature coefficient: ±50ppm/°C maximum
- Operating temperature of -25°C to +70°C
- 8 conversions per second
- Accuracy: ±0.05% of FS maximum
- Resolution: 10μV (mV spans) and 0.02% of FS (V spans)
- Common mode rejection: 100dB at 50/60Hz
- Excitation voltage: 5V, 8V or 10V dc @ 60mA maximum
- Offset Control: Full input range
- Input burnout protection to 30Vdc
- Zero drift: +/-1μV/deg C maximum
- Span temperature coefficient: ±50ppm/°C maximum
- Operating temperature of -25°C to +70°C
- 8-bit ADC, 8 conversions per second
- Accuracy: ±0.01% of reading, ±10μs for timer models or ±0.01Hz for frequency models
- Resolution: ±0.005% of reading, ±0.01μs for timer models or ±0.01Hz for frequency models
- Input Impedance: 1MΩ minimum
- Span temperature coefficient: ±20ppm/°C for frequency and timer models
- Adjustable hysteresis (1mV to 1V)
- Input protection to 250Vac
- User-selectable switching level (0V or +2.5V)
- Span temperature coefficient: ±50ppm/°C maximum
- Operating temperature of -25°C to +70°C
- 8 conversions per second
- Accuracy: ±0.01% of reading,plus ±0.01Hz
- Resolution: ±0.005% of reading, plus ±0.01Hz
- Input Impedance: 1MΩ minimum
- Span temperature coefficient: ±20ppm/°C
- Adjustable hysteresis (1mV to 1V)
- Input protection to 250Vac
- User-selectable switching level (0V or +2.5V)
- Span temperature coefficient: ±50ppm/°C maximum
- Operating temperature of -25°C to +70°C
- Intelligent features not found in the D1000 series: built-in commands to create custom nonlinear input-to-output transfer functions
- 8-bit ADC, 8 conversions per second
- Accuracy: ±0.02% of FS maximum
- Resolution: 0.01% of FS (4 digits)
- Common mode rejection: 100dB at 50/60Hz
- Zero drift: ±1 count maximum (autozero)
- Voltage drop: ±0.1V maximum
- Input impedance of ≤±1V input =100MΩ minimum and ≥±5V input =1MΩ minimum
- Operating temperature of -25°C to +70°C
- Intelligent features not found in the D1000 series: built-in commands to create custom nonlinear input-to-output transfer functions
- 8-bit ADC, 8 conversions per second
- Accuracy: ±0.02% of FS maximum (0.04% of FS for 4-20mA option)
- Resolution: 0.01% of FS (4 digits) (0.04% of FS for 4-20mA option)
- Common mode rejection: 100dB at 50/60Hz
- Zero drift: ±1 count maximum (autozero)
- Voltage drop: ±0.1V maximum
- Operating temperature of -25°C to +70°C
Manufacturers
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Analog Input
The DGH analog input modules are complete data acquisition systems designed for use with PLC’s, personal computers and other processor-based equipment. These modules provide a direct connection to a vast array of industrial sensors including DC voltages, 4-20mA current loops, thermocouples, RTD probes, thermistors, load cells, frequency sources and more.
The modules contain an isolated analog input, perform all signal conditioning, high resolution A/D conversion, linearization, and scale the digital data values into engineering units. Data values are communicated to a host computer using either the DGH ASCII serial protocol, the Modbus RTU serial protocol or the Modbus TCP Ethernet protocol. Each module is available with a serial, USB or Ethernet interface.