MAX532ACWE+ Datasheet MAX532BCWE+, MAX532ACWE+, MAX532BCWE+T | P4-P6

MAX532

Dual, Serial-Input,

Voltage-Output, 12-Bit MDAC

4 _______________________________________________________________________________________

ELECTRICAL CHARACTERISTICS (continued)

= 11.4V to 16.5V, V

= -11.4V to -16.5V, AGNDA = AGNDB = DGND = 0V, VREFA and VREFB = +10V, R

= 2kΩ, C

= 100pF,

VOUT_ connected to RFB_, T

= T

MIN

to T

MAX

, unless otherwise noted.)

PARAMETER CONDITIONS MIN TYP MAX UNITSSYMBOL

VREF = 100mV

p-p

sine wave;

DAC latch loaded with all 1s

1.0 MHz

VREF = 20V

p-p

10kHz sine wave;

DAC latch loaded with all 0s

-77 dB

Full-Power Bandwidth 125 kHz

THDTotal Harmonic Distortion -90 dB

Output Noise Voltage 0.1Hz to 10Hz 2

µV

RMS

Digital Crosstalk DACA code all 1s, DACB code transition from all 0s to all 1s 10 nV-s

Digital Feedthrough

CS = 1; transitions on SCLK, LDAC, DIN

1.1 nV-s

PARAMETER

CONDITIONS MIN TYP MAX

SCLK Pulse Width Low

UNITSSYMBOL

CLK

80 ns

50 ns

CSS1

CS Rise to SCLK Rise Setup Time

SCLK Clock Frequency

50 ns

CSS0

CS Fall to SCLK Rise Setup Time

6.25 MHz

50 ns

DIN to SCLK Rise Hold Time 0 ns

SCLK Pulse Width High 80 ns

Multiplying Feedthrough

Error

Unity-Gain Small-Signal

Bandwidth

VREF = 20V

p-p

sine wave;

DAC latch loaded with all 1s

VREF = 6V

RMS

, 1kHz sine wave;

DAC latch loaded with all 1s

Note 1: Static performance tested at V

= +15V, V

= -15V. Performance over supplies guaranteed by PSR test.

Note 2: Guaranteed by design. Not subject to production testing.

Note 3: Open-drain output.

TIMING CHARACTERISTICS

= 11.4V to 16.5V, V

= -11.4V to -16.5V, AGNDA = AGNDB = DGND = 0V) (Notes 4, 5)

CSH0

SCLK Fall to CS Fall Hold Time

5 ns

CSH1

SCLK Rise to CS Rise Hold Time

80 ns

CSW

CS Pulse Width High

120 ns

SCLK Fall to DOUT Valid (Note 6)

= 20pF, R

PULL-UP

= 1kΩ to 5V

0 200 ns

CS Fall to DOUT Enable (Note 7)

= 20pF, R

PULL-UP

= 1kΩ to 5V

100 ns

CS Rise to DOUT Disable (Note 7)

= 20pF, R

PULL-UP

= 1kΩ to 5V

60 ns

LDAC

LDAC Pulse Width Low

60 ns

LDACS

CS Rise to LDAC Fall Setup Time

100 ns

DIN to SCLK Rise Setup Time

Note 4: All input signals are specified with t

= t

≤ 5ns. Logic input swing is 0V to 5V.

Note 5: See Figure 1.

Note 6: Timing is for SCLK fall to DOUT fall to 0.8V, or for SCLK fall to DOUT rise to 2.4V. Additional time must be added for any

larger passive RC pull-up delay.

Note 7: DOUT enable: DOUT falls to 4.5V from 5.0V. DOUT disable: DOUT rises to 0.5V from 0V.

MAX532

Dual, Serial-Input,

Voltage-Output, 12-Bit MDAC

_________________________________________________________________________________________________

10 1k 10k

OUTPUT VOLTAGE SWING

vs. RESISTIVE LOAD

LOAD RESISTANCE (Ω)

OUT

p-p

)

100

VREF = 20V

p-p

at 1kHz

10 100k



NOISE SPECTRAL DENSITY

100

300

FREQUENCY (Hz)

NOISE SPECTRAL DENSITY (nV Hz)

200



100 1k 10k



VREF = 0V

DAC CODE = 11...111

GAIN = -1

-40

100 10k 10M



LARGE-SIGNAL FREQUENCY RESPONSE

FREQUENCY (Hz)

GAIN (dB)

-5

-10

-15

-30

1k 100k

VREF = 20Vp-p

DAC CODE = 11...111

GAIN = -1

-20

-25

-35

-25

100 10k 10M



SMALL-SIGNAL FREQUENCY RESPONSE

FREQUENCY (Hz)

GAIN (dB)

-5

-10

-15

-20

1k 100k

VREF = 100mV

p-p



DAC CODE = 11...111

-35

-85

1k 100k 



MULTIPLYING FEEDTHROUGH ERROR

-75

FREQUENCY (Hz)

ATTENUATION (dB)

-65

-50

-45

-40

-55

-60

-70

-80

10k 1M

VREFA = 20V

p-p

VREFB = AGNDB

DAC CODE = 00...00

-94

-106

100 1k 10k

TOTAL HARMONIC DISTORTION + NOISE

vs. FREQUENCY (BANDWIDTH = 80kHz)

-102

FREQUENCY (Hz)

THD (dB)

-100

-98

-96

-104

VREF = 6V

RMS



DAC CODE = 111...111

-60

-100

100 10k 100k

TOTAL HARMONIC DISTORTION + NOISE

vs. FREQUENCY (BANDWIDTH > 500kHz)

-75

-65

FREQUENCY (Hz)

THD (dB)

-70

-90

-80

-85

-95

VREF = 6V

RMS



DAC CODE = 111...111



__________________________________________Typical Operating Characteristics

= 15V, V

= -15V, R

= 2kΩ, C

= 100pF, unless otherwise noted.)

MAX532

Dual, Serial-Input,

Voltage-Output, 12-Bit MDAC

6 _______________________________________________________________________________________

______________________________________________________________Pin Description

AGNDA

A = VOUTA, 5V/div

TIMEBASE = 2µs/div

VREFA = ±10V SQUARE WAVE

LARGE-SIGNAL PULSE RESPONSE

____________________________Typical Operating Characteristics (continued)

= 15V, V

= -15V, R

= 2kΩ, C

= 100pF, unless otherwise noted.)

PIN NAME FUNCTION

RFBA Feedback Resistor for DACA

2 VREFA Reference Input for DACA

3 VOUTA Voltage Output for DACA

4 AGNDA Analog Ground for DACA

5 AGNDB Analog Ground for DACB

6 VOUTB Voltage Output for DACB

7 VREFB Reference Input for DACB

8 RFBB Feedback Resistor for DACB

Negative Supply Voltage

10 DGND Digital Ground

11 SCLK Serial Clock Input

12 DOUT

Serial Data Output. Open-drain N-channel MOSFET output: requires external pull-up resis-

tor. Data on DOUT changes on the falling edge of SCLK. Serial output data is delayed 24

clock cycles from DIN.

13 DIN

Serial Data Input. CMOS- and TTL-compatible input. Data is clocked into DIN on the rising

edge of SCLK. CS must be low for data to be clocked in.

16 V

Positive Supply Voltage

LDAC

Asynchronous Load DAC Input, active low. DAC latches are updated when CS is high and

LDAC is low.

Chip-Select Input, active low. Data is shifted in and out when CS is low. DAC latches are

updated when CS is high and LDAC is low.

AGNDA

A = V

OUTA

, 50mV/div

TIMEBASE = 2µs/div

REFA

= ±100mV SQUARE WAVE

SMALL-SIGNAL PULSE RESPONSE

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P16

MAX532ACWE+

Mfr. #:

Buy MAX532ACWE+

Manufacturer:

Maxim Integrated

Description:

Digital to Analog Converters - DAC 12-Bit 2Ch Precision DAC

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MAX532ACWE+

MAX532ACWE+

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