ZSC31010CIG1-R Datasheet ZSC31010CEG1-R, ZSC31010CIG1-R, ZSC31010CIG1-T | P16-P18

ZSC31010 Datasheet

January 20, 2016

Table 2.1 Order of Trim Codes

Order 1Vref/5Vref__trim3 1Vref/5Vref_trim2 1Vref/5Vref_trim1 1Vref/5Vref_trim0

Highest Reference Voltage 1 0 0 0

... 1 0 0 1

... 1 0 1 0

... 1 0 1 1

... 1 1 0 0

... 1 1 0 1

... 1 1 1 0

... 1 1 1 1

... 0 0 0 0

... 0 0 0 1

... 0 0 1 0

... 0 0 1 1

... 0 1 0 0

... 0 1 0 1

... 0 1 1 0

Lowest Reference Voltage 0 1 1 1

2.5. Clock Generator / Power-On Reset (CLKPOR)

If the power supply exceeds 2.5 V (maximum), the reset signal de-asserts, and the clock generator starts oper-

ating at a frequency of approximately 512 kHz (+17% / -22%). The exact value only influences the conversion

cycle time and the communication to the outside world, but not the accuracy of signal processing. In addition, to

minimize the oscillator error as the V

voltage changes, an on-chip regulator is used to supply the oscillator

block.

ZSC31010 Datasheet

January 20, 2016

2.5.1. Trimming the Oscillator

Trimming is performed at wafer level, and it is strongly recommended that this is not to be changed during

calibration, because ZACwire™ communication is no longer guaranteed at different oscillator frequencies.

Table 2.2 Oscillator Trimming

Trimming Bits

Delta Frequency (kHz)

100 +385

101 +235

110 +140

111 +65

000 Nominal

001 -40

010 -76

011 -110

Example: Programming 011

→ the trimmed frequency = nominal value - 110 kHz.

ZSC31010 Datasheet

January 20, 2016

Normal Operation Mode

Start_NOM

Power ON

Command Mode

Raw Mode

No commands possible;

measurement cycle;

conditioning calculation

(corrected bridge and

temperature values)

Depending on the

configuration, the Sig

pin is

• 0 V to 1 V;

• Rail-to-rail ratiometric; or

• Digital output

Measurement cycle stopped;

full command set

Command routine will be

processed after each

command

Measurement cycle

Sig

pin provides raw bridge

and temperature values in

this format:

• Bridge_high (1

byte)

• Bridge_low (2

byte)

• Temp (3

byte)

Start_RM

Command

Window (6 ms); send

Start_CM

No Command

Power OFF

3 Functional Description

3.1. General Working Mode

The command/data transfer takes place via the one-wire Sig™ pin, using the ZACwire™ serial communication

protocol. After power-on, the IC waits for 6 ms (i.e., the command window) for the Start_CM command. Without

this command, the Normal Operation Mode (NOM) starts. In this mode, raw bridge values are converted, and the

corrected values are presented on the output in analog or digital format (depending on the configuration stored in

EEPROM).

Command Mode (CM) can only be entered during the 6 ms command window after power-on. If the IC receives

the Start_CM command during the command window, it remains in the Command Mode. The CM allows changing

to one of the other modes via command. After command Start_RM, the IC is in the Raw Mode (RM). Without

correction, the raw values are transmitted to the digital output in a predefined order. The RM can only be stopped

by power-off. Raw Mode is used by the calibration software for collection of raw bridge and temperature data, so

the correction coefficients can be calculated.

Figure 3.1 General Working Mode

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39 P40-P42 P43-P43

ZSC31010CIG1-R

Mfr. #:

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Sensor Interface Sensor Signal Conditoner

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ZSC31010CIG1-R

ZSC31010CIG1-R

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