cef830g Hope Microelectronics co., Ltd, cef830g Datasheet - Page 38

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cef830g

Manufacturer Part Number
cef830g
Description
Rf42/43 Ism Transmitter
Manufacturer
Hope Microelectronics co., Ltd
Datasheet
7.3.1. ADC Differential Input Mode—Bridge Sensor Example
The differential input mode of ADC8 is designed to directly interface any bridge-type sensor, which is demonstrated
in the figure below. As seen in the figure the use of the ADC in this configuration will utilize two GPIO pins. The
supply source of the bridge and chip should be the same to eliminate the measuring error caused by battery
discharging. For proper operation one of the VDD dependent references (VDD/2 or VDD/3) should be selected for
the reference voltage of ADC8. VDD/2 reference should be selected for VDD lower than 2.7 V, VDD/3 reference
should be selected for VDD higher than 2.7 V. The differential input mode supports programmable gain to match
the input range of ADC8 to the characteristic of the sensor and VDD proportional programmable offset adjustment
to compensate the offset of the sensor.
The adcgain[1:0] bits in "Register 0Eh. I/O Port Configuration" determine the gain of the differential/single ended
amplifier. This is used to fit the input range of the ADC8 to bridge sensors having different sensitivity:
Note:
The gain is different for different VDD dependent references so the reference change has no influence on input
range and digital measured values.
The input range is the differential voltage measured between the selected GPIO pins corresponding to the full
ADC range (255).
adcgain[1]
Tel: +86-755-82973805
0
0
1
1
Figure 16. ADC Differential Input Example—Bridge Sensor
adcgain[0]
0
1
0
1
Fax: +86-755-82973550
Differential Gain
adcref[0] = 0
22/13
44/13
66/13
88/13
E-mail: sales@hoperf.com
adcref[0] = 1
33/13
66/13
99/13
132/13
Input Range (% of VDD)
16.7
8.4
5.6
4.2
R F 4 2 / 4 3
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38

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