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ZMD31020BID Datasheet(PDF) 6 Page - Zentrum Mikroelektronik Dresden AG |
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ZMD31020BID Datasheet(HTML) 6 Page - Zentrum Mikroelektronik Dresden AG |
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6 / 19 page  Copyright © 2004, ZMD AG, Rev. 1.6, 2005-05-19 6/19 All rights reserved. The material contained herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. The Information furnished in this publication is preliminary and subject to changes without notice. ZMD31020 Sensor Signal Conditioner Datasheet ZMD31020’s block schematic in section 2.1 shows the structure of the analog input channel. The signal path for the sensor signal as well as for temperature is fully differential up to the ADC. The analog multiplexer provides a cost-effective, sequential conversion by a common ADC. Each signal path can be separated from the source at it‘s input and can be short-circuit there for offset-cancellation purposes; for more details see the ZMD31020 Functional Description. 2.5.1 Bridge Polarity Setting The sensor signal path features a cross-switch to reverse the polarity of the bridge sensor signal. BP – configuration bit 4 – sets the bridge polarity as follows: BP Differential signal 0 VBR_P – VBR_N 1 VBR_N – VBR_P 2.5.2 Programmable Gain Amplifier PGA The PGA realizes a coarse sensitivity adaptation of the bridge sensor signal in several amplification steps (sensitivity fine-tuning takes place later in the CMC). Three different gains can be set by G0 and G1 - configuration bits 2 and 3 - as follows: G1 G0 Gain aIN 0 x 15.66 1 0 24 1 1 42 The chopper-stabilisation of the PGA reduces the signal noise and is enabled by CH - configuration bit 6: CH Chopper-stabilisation 0 Disabled 1 Enabled 2.5.3 Analog-to-digital Converter ADC The ADC is a first order charge balancing analog-to-digital converter in full differential switched capacitor technology. The amplified bridge sensor signal is converted by the ADC with full 12 bits resolution against a reference voltage of 0.96 (VDDA – VSSA). As both the signal to be measured as well as the reference voltage, it is measured against, are ratiometric to supply voltage (VDDA - VSSA), the ADC’s conversion result is insensitive to supply-tolerances and -instabilities. In addition, the ADC realizes a coarse offset compensation (ADC-Range- Shift RSADC) of the bridge sensor signal (offset fine-tuning takes place afterwards in the CMC). RSADC can be set as follows: O1 O0 RSADC (*) 0 0 15/16 0 1 7/8 1 0 3/4 1 1 1/2 2.5 Analog Input Channel (*) ADC-Range-Shift, related to the maximum processable sensor signal span (former name was “CRROB”) |
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