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Model DI-5B34C-02

Isolated 0-120°C 2- or 3-wire RTD 5B-style Amplifier

$188 each
In
Stock
  • 0°C to 120°C (32°F to +248°F) 10Ω at 25°C
  • Interfaces to 2- or 3-wire 10Ω Copper, α = 0.004274 RTDs
  • Linearizes RTD Signal
  • High Level Voltage Outputs
  • 1500 VRMS Transformer Isolation
  • ANSI/IEEE C37.90.1-1989 Transient Protection
  • Input Protected to 240VAC Continuous
  • 160dB CMR
  • 95dB NMR at 60Hz, 90dB at 50Hz
  • CSA Certified
  • View Dimensions and pinout
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DI-5B DAQ Amplifiers
This amplifier module measures 0°C to +120°C (+32°F to +248°F).This amplifier module supports 10Ω Cu RTDs.This amplifier module has 4Hz bandwidth.This data acquisition system has a 30-day Money back guaranteeThis amplifier is manufactured in the United States of America

Description

Each DI-5B34 RTD input module provides a single channel of RTD input which is filtered, isolated, amplified, linearized, and converted to a high level analog voltage output (see block diagram). This voltage output is logic switch controlled, which allows 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. RTD excitation is provided from the module by two matched current sources. When using a three-wire RTD, this method allows an equal current to flow in each RTD lead, which cancels the effects of lead resistances. The excitation currents are very small (0.25mA for 100Ω Pt and 120Ω Ni, and 1.0mA for 10Ω Cu) which minimizes self-heating of the RTD.

Signal filtering is accomplished with a six-pole filter which provides 95dB of normal-mode-rejection at 60Hz and 90dB at 50Hz. Two poles of this filter are on the field side of the isolation barrier, and the other four are on the computer side. After the initial field-side filtering, 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-5B34 modules provides protection against accidental connection of power-line voltages up to 240VAC.

Accessories

DI-5B01

16-Position Backplane

$ 409
16-channel backplane for 5B modules

Description

16-channel backplane for 5B modules. Each module has its own analog bus. For use with DI-5B Modules.

DI-5B03

1-Position Backplane

$ 55
Single-channel backplane for 5B modules

Description

Single-channel backplane. For use with DI-5B Modules.

DI-5B04

2-Position Backplane

$ 129
Dual-channel backplane for 5B modules

Description

Dual-channel backplane. For use with DI-5B Modules.

DI-5B05

8-Position Backplane

$ 305
Dual-channel backplane for 5B modules

Description

8-position analog I/O backplane, non-multiplexed. For use with DI-5B Modules.

DI-BEFE

Base Element

$ 10
Base element with snap foot

Description

Base element with snap foot required for use with models DI-5B03 and DI-5B04 Backplanes. For use with DI-5B Modules.

DI-5B-PS

Power Supply

$65.00
Power Supply

Description

5V DC Power Supply for use with both DI-5B and DI-8B Backplanes.

DI-XSE

Side Element

$ 5
Side element

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: 0°C (32°F) to +120°C (+248°F) (10Ω at 25°C)
Output Range: 0 to +5V
Accuracy: ±0.23°C (Includes conformity, hysteresis, and repeatability.)
Input Resistance: Normal: 50MΩ
Power Off: 40kΩ
Overload: 40kΩ
Input Protection: Continuous: 240Vrms max
Transient: ANSI/IEEE C37.90.1-1989
Sensor Excitation Current: 1.0mA
Lead Resistance Effect: ±0.2°C/Ω
(“Ω” refers to the resistance in one lead.)
CMV, Input to Output: Continuous: 1500Vrms max
Transient: ANSI/IEEE C37.90.1-1989
CMR (50 or 60Hz): 160dB
NMR: 95dB at 60Hz, 90dB at 50Hz
Conformity Error: ±0.05% Span
Stability: Input Offset: ±0.02°C/°C
Output Offset: ±20µV/°C
Gain: ±50ppm of reading/°C
Noise: Input, 0.1 to 10Hz: 0.2µVrms
Output, 100kHz: 200µVrms
Bandwidth, –3dB: 4Hz
Response Time, 90% Span: 0.2s
Output Range: 0V to +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: ±14mA 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: 0.5°C/V
Environmental: 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
Mechanical Dimensions: 2.28" × 2.26" × 0.60"
(58mm × 57mm × 15mm)

* At standard 60Hz factory calibration. For 10 to 100% rated span. Add an additional 0.25% error for 0 to 10% Span measurements. Accuracy includes nonlinearity, hysteresis and repeatability but not source or external shunt inaccuracy (if used).