IC-MQ Datasheet, PDF(19/39 Page) IC-Haus GmbH – PROGRAMMABLE 9-BIT Sin/Cos INTERPOLATION IC WITH RS422 DRIVER

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IC-MQ Datasheet, PDF (19/39 Pages) IC-Haus GmbH – PROGRAMMABLE 9-BIT Sin/Cos INTERPOLATION IC WITH RS422 DRIVER

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iC-MQ PROGRAMMABLE 9-BIT

Sin/Cos INTERPOLATION IC WITH RS422 DRIVER

INPUT CONFIGURATION

Rev D4, Page 19/39

All input stages are conï¬gured as instrumentation am-

pliï¬ers and thus directly suitable for differential input

signals. Referenced input signals can be processed;

input X2 can be conï¬gured as a reference input. Both

current and voltage signals can be processed, se-

lected using RIN12 and RIN0.

INMODE

Code

Note

Adr 0x03, bit 2

Function

Differential input signals

Single-ended input signals *

* Input X2 is reference for all inputs.

Table 16: Input Signal Mode

Figure 2: Signal Conditioning

Current Signals

In I Mode an input resistor Rin() becomes active at

each input pin, converting the current signal into a

voltage signal. Input resistance Rin() consists of a

pad wiring resistor and resistor Rui() which is linked

to the adjustable bias voltage source VREFin(). BIA-

SEX must be set to â00â. The table besides shows the

possible selections, with Rin() giving the typical result-

ing input resistance (see Electrical Characteristics for

tolerances). The input resistor should be set in such

a way that intermediate potentials VDC1 and VDC2 lie

between 125 mV and 250 mV (veriï¬able in mode Cali-

bration 2).

Voltage Signals

In V mode an optional voltage divider can be selected

which reduces unacceptably large input amplitudes to

ca. 25 %. The circuitry is equivalent to the resistor

chain in I mode; the pad wiring resistor is considerably

larger here, however. For sensors whose offset cali-

bration is to be proportional to an external DC voltage

source the reference source can be selected using BI-

ASEX; for all other sensors BIASEX should be set to

â00â.

RIN12

RIN0

Code

â000

â010

â100

â110

1â1

0â1

Adr 0x0E, bit 3:0

Adr 0x13, bit 3:0

Nominal Rin() Internal Rui()

1.7 kâ¦

1.6 kâ¦

2.5 kâ¦

2.3 kâ¦

3.5 kâ¦

3.2 kâ¦

4.9 kâ¦

4.6 kâ¦

20 kâ¦

5 kâ¦

high

impedance

1 Mâ¦

I/V Mode

current input

voltage input

Table 17: I/V Mode and Input Resistance

BIAS12

BIAS0

Code

Note

Adr 0x0E, bit 6

Adr 0x13, bit 6

VREFin()

Type of sensor

2.5 V

Lowside sink current (I Mode)

1.5 V

Highside current source (I Mode)

Not valid with BIASEX=11.

Table 18: Reference Voltage

BIASEX

Code

00*

Adr 0x0D, bit 7:6

VREFin()

Signal at X2

1.5 / 2.5 V

(internal)

Neg. Zero Signal (Index -), input

1.5 / 2.5 V

(internal)

Ref. Voltage VREFin12, output

external

Voltage at X2 supplies VREFin

Table 19: Input Reference Selection

▷