MAX5715AAUD+ Maxim Integrated, MAX5715AAUD+ Datasheet - Page 15

MAX5715AAUD+

Manufacturer Part Number

MAX5715AAUD+

Description

Digital to Analog Converters - DAC 12Bit 4CH V Buff Precision ADC

Manufacturer

Maxim Integrated

Datasheet

1.MAX5715AAUD.pdf (27 pages)

Specifications of MAX5715AAUD+

Rohs

yes

Number Of Converters

Number Of Dac Outputs

Resolution

12 bit

Interface Type

SPI, Serial (3-Wire, Microwire)

Settling Time

4.5 us

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

TSSOP-14

Maximum Power Dissipation

797 mW

Minimum Operating Temperature

- 40 C

Output Type

Voltage Buffered

Supply Current

1.16 mA

Supply Voltage - Max

5.5 V

Supply Voltage - Min

2.7 V

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The MAX5713/MAX5714/MAX5715 are 4-channel, low-

power, 8-/10-/12-bit buffered voltage-output DACs. The

2.7V to 5.5V wide supply voltage range and low-power

consumption accommodates most low-power and low-

voltage applications. The devices present a 100kI load

to the external reference. The internal output buffers

allow rail-to-rail operation. An internal voltage reference

is available with software selectable options of 2.048V,

2.5V, or 4.096V. The devices feature a 50MHz, 3-wire

SPI/QSPI/MICROWIRE/DSP-compatible serial interface to

save board space and reduce the complexity in isolated

applications. The MAX5713/MAX5714/MAX5715 include

a serial-in/parallel-out shift register, internal CODE and

DAC registers, a power-on-reset (POR) circuit to initialize

the DAC outputs to code zero, and control logic. CLR is

available to asynchronously clear the device indepen-

dent of the serial interface.

The MAX5713/MAX5714/MAX5715 include internal buf-

fers on all DAC outputs. The internal output buffers

provide improved load regulation for the DAC outputs.

The output buffers slew at 1V/Fs (typ) and drive resistive

loads as low as 2kI in parallel with as much as 500pF

of capacitance.. The analog supply voltage (V

mines the maximum output voltage range of the devices

as V

tions, the output buffers drive from GND to V

to offset and gain errors. With a 2kω load to GND, the

output buffers drive from GND to within 200mV of V

With a 2kω load to V

to within 200mV of GND.

The DAC ideal output voltage is defined by:

where D = code loaded into the DAC register, V

reference voltage, N = resolution.

The user interface is separated from the DAC logic to

minimize digital feedthrough. Within the serial interface

is an input shift register, the contents of which can be

routed to control registers, individual, or multiple DACs

as determined by the user command.

Within each DAC channel there is a CODE register

followed by a DAC latch register (see the Detailed

Functional Diagram). The contents of the CODE register

Maxim Integrated

Output DACs with Internal Reference and SPI Interface

powers the output buffer. Under no-load condi-

Ultra-Small, Quad-Channel, 8-/10-/12-Bit Buffered

OUT

Internal Register Structure

, the output buffers drive from V

Detailed Description

REF

DAC Outputs (OUT_)

, subject

) deter-

MAX5713/MAX5714/MAX5715

REF

hold pending DAC output settings which can later be

loaded into the DAC registers. The CODE register can be

updated using both CODE and CODE_LOAD user com-

mands. The contents of the DAC register hold the current

DAC output settings. The DAC register can be updated

directly from the serial interface using the CODE_LOAD

commands or can upload the current contents of the

CODE register using LOAD commands or the LDAC

hardware pin.

The contents of both CODE and DAC registers are main-

tained during power-down states, so that when the DACs

are powered on, they return to their previously stored

output settings. Any CODE or LOAD commands issued

during power-down states continue to update the register

contents. SW_CLEAR and SW_RESET commands reset

the contents of all CODE and DAC registers to their zero-

scale defaults.

The MAX5713/MAX5714/MAX5715 include an internal

precision voltage reference that is software selectable

to be 2.048V, 2.500V, or 4.096V. When an internal refer-

ence is selected, that voltage is available on the REF

pin for other external circuitry (see the

Circuits) and can drive a 25kI load.

The external reference input has a typical input

impedance of 100kI and accepts an input voltage

from +1.24V to V

supply between REF and GND to apply an exter-

nal

power up and reset to external reference mode. Visit

www.maximintegrated.com/products/references

list of available external voltage-reference devices.

The MAX5713/MAX5714/MAX5715 feature an active-

low LDAC logic input that allows the outputs to update

asynchronously. Connect LDAC to V

high during normal operation when the device is con-

trolled only through the serial interface. Drive LDAC low

to simultaneously update the DAC outputs with data

from the CODE registers. Holding LDAC low causes the

DAC registers to become transparent and CODE data is

passed through to the DAC registers immediately updat-

ing the DAC outputs. A software CONFIG command can

be used to configure the LDAC operation of each DAC

independently.

reference.

The

. Connect an external voltage

MAX5713/MAX5714/MAX5715

Load DAC (LDAC) Input

(TSSOP Package Only)

External Reference

Internal Reference

DDIO

Typical Operating

or keep LDAC

for a

MAX5715AAUD+ Maxim Integrated, MAX5715AAUD+ Datasheet - Page 15

MAX5715AAUD+

Specifications of MAX5715AAUD+

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