Model DI-5B41-01
Isolated ±1V 5B-style Amplifier
Stock
- Accepts ±1V Level Signals
- High Level Voltage Outputs
- 1500Vrms Transformer Isolation
- ANSI/IEEE C37.90.1-1989 Transient Protection
- Input Protected to 240VAC Continuous
- 100dB CMR
- 10kHz Signal Bandwidth
- ±0.05% Accuracy
- ±0.02% Linearity
- ±1µV/°C Drift
- CSA Certified
- View Dimensions and pinout
Description
Each DI-5B40 and DI-5B41 wide bandwidth voltage input module provides a single channel of analog input which is amplified, isolated, and converted to a high level analog voltage output (see block diagram). This voltage output is logic-switch controlled, allowing these modules to share a common analog bus without the requirement of external multiplexers.
The DI-5B modules are designed with a completely isolated computer side circuit which can be floated to ±50V from Power Common, pin 16. This complete isolation means that no connection is required between I/O Common and Power Common for proper operation of the output switch. If desired, the output switch can be turned on continuously by simply connecting pin 22, the Read-Enable pin to I/O Common, pin 19.
The input signal is processed through a preamplifier on the field side of the isolation barrier. This preamplifier has a gain-bandwidth product of 5MHz and is bandwidth limited to 10kHz. After amplification, the input signal is chopped by a proprietary chopper circuit. Isolation is provided by transformer coupling, again using a proprietary technique to suppress transmission of common mode spikes or surges. The module is powered from +5VDC, ±5%.
A special input circuit on the DI-5B40 and DI-5B41 modules provides protection against accidental connection of power-line voltages up to 240VAC.
Accessories
Description
16-channel backplane for 5B modules. Each module has its own analog bus. For use with DI-5B Modules.
Description
Single-channel backplane. For use with DI-5B Modules.
Description
Dual-channel backplane. For use with DI-5B Modules.
Description
8-position analog I/O backplane, non-multiplexed. For use with DI-5B Modules.
Description
Base element with snap foot required for use with models DI-5B03 and DI-5B04 Backplanes. For use with DI-5B Modules.
Description
5V DC Power Supply for use with both DI-5B and DI-8B Backplanes.
Description
Side element required for use with models DI-5B03 and DI-5B04 Backplanes. For use with DI-5B Modules and Backplanes.
Specifications
Input Range: | ±1V |
Input Bias Current: | ±0.05nA |
Input Resistance: | Normal: 650kΩ Power Off: 650kΩ Overload: 650kΩ |
Input Protection: | Continuous: 240Vrms max Transient: ANSI/IEEE C37.90.1-1989 |
CMV, Input to Output: | Continuous: 1500Vrms max Transient: ANSI/IEEE C37.90.1-1989 |
CMR (50Hz or 60Hz): | 100dB |
NMR: | 120dB per Decade above 10kHz |
Accuracy: | ±0.05% Span ±0.2mV RTI ±0.05% (VZ) (Includes nonlinearity, hysteresis and repeatability; RTI=Referenced to input; VZ is the input voltage that results in 0V output.) |
Nonlinearity: | ±0.02% Span |
Stability: | Input Offset: ±20µV/ºC Output Offset: ±40µV/ºC Gain: ±50ppm/ºC |
Noise: | Input, 0.1 to 10Hz: 2µVrm Output, 100kHz: 10mVp-p |
Bandwidth, -3dB: | 10kHz |
Rise Time, 10 to 90% Span: | 35µs |
Setting Time, to 0.1%: | 250µs |
Output Range: | ±5V |
Output Resistance: | 50Ω |
Output Protection: | Continuous Short to Ground |
Output Selection Time: (to ±1mV of Vout) |
6µs at Cload = 0 to 2000pF |
Output Current Limit: | ±20mA max |
Output Enable Control: | Max Logic “0”: +0.8V Min Logic “1”: +2.4V Max Logic “1”: +36V Input Current, “0”, “1”: 0.5µA |
Power Supply Voltage: | +5VDC ±5% |
Power Supply Current: | 30mA |
Power Supply Sensitivity: | ±200µV/%RTI (RTI=Referenced to input.) |
Mechanical Dimensions: | 2.28" × 2.26" × 0.60" (58mm × 57mm × 15mm) |
Operating Temperature: | -40ºC to +85ºC |
Storage Temperature: | -40ºC to +85ºC |
Relative Humidity: | 0 to 95% Noncondensing |
RFI Susceptibility: | ±0.5% Span Error at 400MHz, 5W, 3ft |
Articles
Bandwidth Considerations for DI-5B and DI-8B Signal Conditioning Modules
Learn the Importance of Isolation In Four Easy Lessons
How To Calibrate Strain Gage-Based Transducers Using DI-5B38 Strain Amplifiers