Analog Devices B39 0 (3) Datasheet

Isolated Process Current Output
FEATURES
Interfaces, isolates, & filters a 0 to +10V or -10V to +10V input signal and provides an isolated process current output across loads of 0 to 850Ω..
Intended for high-accuracy process control and monitoring applications requiring total galvanic isolation.
Module circuitry can withstand 220v rms at the output screw-terminals.
All 3B39 series modules are mix-and-match and Hot Swappable
APPLICATIONS
Industrial signal conditioning Industrial signal isolation Industrial signal filtering
PRODUCT OVERVIEW
The 3B Series of Signal Conditioning I/o Subsystems provide a low-cost, versatile method of transferring analog transducer signals to a data acquisition, monitoring or control system without the inherent noise, non-linearity, drift and extraneous voltages. The modules are designed to directly accept analog signals from Thermocouples, RTD’s, AC and DC Strain Gages, Torque Transducers, Frequency Transducers, LVDTs, millivolt or process current signals. The modules amplify, isolate, linearize and convert the transducer output signals to standardized analog inputs for high-level analog I/O subsystems. The 3B Series Subsystem consists of a 10” relay rack with universal mounting backplane and a family of plug-in (up to 16 per rack) input and output signal conditioning modules.
Eight and four channel backplanes are also available. Each backplane incorporates screw terminals for sensor inputs and current outputs and a 26-pin connector for high-level single­ended voltage outputs to the user’s equipment.
The input modules feature complete signal conditioning circuitry optimized for specific sensors or analog signals and provide two simultaneous high-level analog outputs: 0 to +10V
10V) and 4-20 mA (or 0-20 mA).
(or +
3B39
FUNCTIONAL BLOCK DIAGRAM
Figure 1. 3B39 Functional Block Diagram
Output modules accept 0 to +10V (or +10V) single-ended signals and provide an isolated 4-20 mA (or 0-20 mA) process signal. All modules feature a universal pin-out and may be readily hot-swapped under full power and interchanged without disrupting field wiring.
The Analog Devices 3B Series Signal Conditioning Subsystem is designed to easily handle signal conditioning problems in measurement and control applications. Some typical uses are in microcomputer-based data acquisition systems, programmable controllers, analog recorders, dedicated control systems, and any other applications where monitoring of temperature, pressure, flow and analog signals are required. Since each input module features two simultaneous outputs, the voltage output can be used to provide an input to a microprocessor-based data acquisition or control system while the current output can be used for analog transmission, operator interface, or an analog backup system.
Each input module is a single-channel signal conditioner which plugs into a socket on the backplane and accepts its signal from the input screw terminals. All input modules provide input protection, amplification and filtering of the input signal, accuracy of + modules), and feature two high-level analog outputs that are compatible with most process instrumentation. The isolated input modules also provide +
The choice of a specific 3B module depends upon the type of input signal. Input modules are available to accept millivolt, volt, process current, thermocouple, RTD, AC and DC strain gage, frequency and LVDT inputs. The voltage output of each module is available from the sysem I/O connector while the current output is available on the output screw terminals.
0.1%, low drift of +1 uV/oC (low-level input
1500 V peak isolation.
Rev. 0
Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective companies.
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GENERAL DESCRIPTION
The 3B39 is a single-channel signal conditioning current output module that interfaces, isolates and filters a 0 to +10V or -10V to +10V input signal and provides an isolated process current output across loads of 0 to 850. The output current appears at the 3B Series backplane current output screw terminal block. It is intended for high-accuracy process control and monitoring applications requiring complete galvanic isolation and protection against damage from transients and faults between systems or separated system elements. Either of the two input voltage ranges can be converted to either of the two output current ranges via programming jumpers provided on the bottom of the module. Model 3B39 features a nonlinearity of
0.01% and an accuracy of +0.1%. Providing +1500V peak of
+ galvanic transformer based isolation output-to-input and power, the 3B39 offers a common mode rejection (CMR) of 90 dB @ 50/60 Hz to preserve the integrity of low level signals in noisy environments. The 3B39 is mix-and-match and hot-swappable with other 3B Series modules, so it can be inserted or removed from any socket in the same backplane without disturbing system power.
3B39
modulation technique for linear, stable and reliable performance. A demodulator on the output side of the signal transformer recovers the original signal, which is then filtered and converted to an accurate current output by a current (V-to­I) converter output stage. Output protection enables the 3B39 to withstand accidental connection to 220V rms power lines without damage, isolating computer-side circuitry. The 3B39 provides total ground isolation and transient protection when interfacing DACs to standard 4-20 mA current loops, common requirement in microcomputer based control system.
.
Signal isolation by transformer coupling uses a proprietary
Figure 2
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3B39
3B39 Specifications
(typical @ +25°C and ±15 V dc, and +24 V dc Power)
Description Model 3B39 Input Voltage Standard Ranges
Input, Without Damage Input Resistance
Standard Ranges (R Custom Ranges Not Available
Initial @ +25°C ±0.1% Span + CJC Sensor Error Nonlinearity ±0.01% Span
Current Output Zero ±25 ppm of Span/°C Span ±25 ppm of Reading/°C Zero and Span Adjustment Range
Input, 0.1 Hz to 10 Hz Bandwidth 0.2 µV rms Output, 100 kHz Bandwidth 50 µV rms
Bandwidth, -3 dB Output Rise Time, 10% to 90% Span
Input-to-Output, Continuous ±1500 V peak, maximum Transient ANSI/IEEE C37.90.1-1989
1 k Source Imbalance, 50/60 Hz
Continuous, Normal Mode 220 V rms, maximum Transient ANSI/IEEE C37.90.1-1989
±15 V dc Supplies
Rated Operation ±(11.5 V dc to 16.5 V dc) Current ±10 mA Sensitivity ±0.01% span/V +24 V dc Loop Supply Rated Operation +12 V dc to +30 V dc Current +27 mA @ l
= 0 to 850Ω)
L
1
Stability vs. Temperature
Common-Mode Voltage (CMV)
Common Mode Rejection (CMR)
Power Supply Voltages
0 V to +10 V or -10 V to +10 V
-20 V to +20 V, maximum
10 k
Output Ranges
4 mA to 20 mA or 0 mA to 20 mA
2
Accuracy
Output Protection
±5% of Span
Noise
3 Hz 2 ms
90 dB
3
= 20 mA
out
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