CS4373A Datasheet, PDF(21/34 Page) Cirrus Logic – Low-power, High-performance Test DAC

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

CS4373A Datasheet, PDF (21/34 Pages) Cirrus Logic – Low-power, High-performance Test DAC

◁

CS4373A

In DC differential output mode (MODE 5) the

level-shifting buffer circuitry adds low-level

32 kHz switched-capacitor noise to the DC

output. This noise is out of the measurement

bandwidth for systems designed with

CS3301A / CS3302A amplifiers and

CS5371A / CS5372A modulators, and is re-

jected by the CS5376A digital filter. This

32 kHz switch-capacitor noise does not affect

DC system tests, though it may be visible on

an oscilloscope at high gain levels.

OUT+

OUT-

CS4373A

MODE 4

BUF+

BUF-

Approx

-0.15 VDC

Common

Mode

Approx

-0.15 VDC

Common

Mode

OUT+

OUT-

CS4373A

MODE 5

BUF+

BUF-

Maximum

2.5 VDC

Differential

Maximum

2.5 VDC

Differential

Figure 10. DC Test Modes

By measuring both DC test modes

(MODE 4, 5), precision gain-calibration coeffi-

cients can be calculated for the measurement

channel. By first measuring the differential off-

set of the DC common mode output (MODE 4)

and then measuring the DC differential mode

amplitude (MODE 5), a precise offset correct-

ed volts-to-codes conversion ratio can be cal-

culated. This known ratio is then used to

normalize the full-scale amplitude using the

CS5376A digital filter GAIN registers to match

other channels in the measurement network.

By switching between DC common mode

(MODE 4) and DC differential mode

(MODE 5), pulse waveforms can be created to

characterize the step response of the mea-

surement channel. If a pulse test requires pre-

cise timing control, an external controller

should directly toggle the MODE pins of the

CS4373A to avoid delays associated with writ-

ing to the CS5376A digital filter GPIO regis-

ters.

Sensor impedance can be measured using

DC differential mode (MODE 5), provided

matched series resistors are installed between

the BUF analog outputs and the sensor. Ap-

plying the known DC differential voltage to the

resistor-sensor-resistor string permits a ratio-

metric sensor impedance calculation from the

measured voltage drop across the sensor.

Switching between DC differential mode

(MODE 5) and sleep mode (MODE 0, 7) can,

in the case of a moving-coil geophone, test ba-

sic parameters of the electro-mechanical

transfer function. The voltage relaxation char-

acteristic of the sensor when switching the an-

alog outputs from a differential DC voltage to

high impedance depends primarily on the geo-

phone resonant frequency and damping fac-

tor.

DS699F2

21

▷