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MUX506 Datasheet, PDF (28/38 Pages) Texas Instruments – 36-V, Low-Capacitance, Low-Leakage-Current, Precision Analog Multiplexers
MUX506, MUX507
SBAS803 – NOVEMBER 2016
www.ti.com
9 Applications and Implementation
9.1 Application Information
The MUX50x family offers outstanding input/output leakage currents and ultra-low charge injection. These
devices operate up to 36 V, and offer true rail-to-rail input and output. The on-capacitance of the MUX50x is very
low. These features makes the MUX50x a family of precision, robust, high-performance analog multiplexer for
high-voltage, industrial applications.
9.2 Typical Application
Figure 42 shows a 16-bit, differential, 8-channel, multiplexed, data-acquisition system. This example is typical in
industrial applications that require low distortion and a high-voltage differential input. The circuit uses the
ADS8864, a 16-bit, 400-kSPS successive-approximation-resistor (SAR) analog-to-digital converter (ADC), along
with a precision, high-voltage, signal-conditioning front end, and a 4-channel differential mux. This TI Precision
Design details the process for optimizing the precision, high-voltage, front-end drive circuit using the MUX507,
OPA192 and OPA140 to achieve excellent dynamic performance and linearity with the ADS8864.
Analog Inputs
Bridge Sensor
Thermocouple
Current Sensing
OPA192
+
+
OPA192
Gain Network
Gain Network
Gain Network
OPA140
+
REF3140
RC Filter OPA350
Reference Driver
RC Filter
Charge
Kickback
Filter
VINP
REF
ADS8864
VINM
Photo
LED Detector
Optical Sensor
High-Voltage Multiplexed Input
High-Voltage Level Translation
VCM
Copyright © 2016, Texas Instruments Incorporated
Figure 42. 16-Bit Precision Multiplexed Data-Acquisition System for High-Voltage Inputs With Lowest
Distortion
9.2.1 Design Requirements
The primary objective is to design a ±20 V, differential, 8-channel, multiplexed, data-acquisition system with
lowest distortion using the 16-bit ADS8864 at a throughput of 400 kSPS for a 10-kHz, full-scale, pure, sine-wave
input. The design requirements for this block design are:
• System supply voltage: ±15 V
• ADC supply voltage: 3.3 V
• ADC sampling rate: 400 kSPS
• ADC reference voltage (REFP): 4.096 V
• System input signal: A high-voltage differential input signal with a peak amplitude of 20 V and frequency
(fIN) of 10 kHz are applied to each differential input of the mux.
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Copyright © 2016, Texas Instruments Incorporated