DAC8871_08 BURR-BROWN [Burr-Brown Corporation], DAC8871_08 Datasheet - Page 15

DAC8871_08

Manufacturer Part Number

DAC8871_08

Description

Manufacturer

BURR-BROWN [Burr-Brown Corporation]

Datasheet

1.DAC8871_08.pdf (21 pages)

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POWER-ON RESET AND HARDWARE RESET

The DAC8871 has a power-on reset function. When the RSTSEL pin is low (tied to DGND), and after power-on

or a hardware reset signal is applied to the RST pin, the DAC latch is cleared ('0') and the V

negative full-scale. When RSTSEL is high, the DAC latch and V

SERIAL INTERFACE

The DAC8871 digital interface is a standard 3-wire connection compatible with SPI, QSPI™, Microwire™ and TI

DSP™ interfaces, which can operate at speeds up to 50 Mbits/second. The data transfer is framed by the chip

select (CS) signal. The DAC works as a bus slave. The bus master generates the synchronize clock (SCLK) and

initiates the transmission. When CS is high, the DAC is not accessed, and SCLK and SDI are ignored. The bus

master accesses the DAC by driving CS low. Immediately following the high-to-low transition of CS, the serial

input data on the SDI pin are shifted out from the bus master synchronously on the falling edge of SCLK and

latched on the rising edge of SCLK into the input shift register, MSB first. The low-to-high transition of CS

transfers the content of the input shift register to the input register.

All data registers are 16 bits. It takes 16 SCLK cycles to transfer one data word to the device. To complete a

whole data word, CS must be taken high immediately after the 16th SCLK is clocked in. If more than 16 SCLK

cycles are applied while CS is low, the last 16 bits are transferred into the input register on the rising edge of

CS. However, if CS is not kept low during the entire 16 SCLK cycles, the data are corrupted. In this case, reload

the DAC latch with a new 16-bit word.

The DAC8871 has an LDAC pin that allows the DAC latch to be updated asynchronously by bringing LDAC low

after CS goes high. In this case, LDAC must be kept high while CS is low. If LDAC is permanently tied low, the

DAC latch will be updated immediately after the input register is loaded (caused by the low-to-high transition of

CS).

EXTERNAL AMPLIFIER SELECTION

The output of the DAC8871 is unbuffered. The output impedance is approximately 6.2k . If the applications

require an external buffer amplifier, the selected amplifier must have a low-offset voltage (1LSB = 305 V for

the bias current multiplied by the DAC output impedance (approximately 6.25k ) adds to the zero-code error.

Rail-to-rail input and output performance is required. For fast settling, the slew rate of the operational amplifier

should not impede the settling time of the DAC. The output impedance of the DAC is constant and

code-independent, but in order to minimize gain errors, the input impedance of the output amplifier should be as

high as possible. The amplifier should also have a 3dB bandwidth of 1MHz or greater. The amplifier adds

another time constant to the system, thus increasing the settling time of the output. A higher 3dB amplifier

bandwidth results in a shorter effective settling time of the DAC and amplifier combination.

10V output range), eliminating the need for output offset trims. Input bias current should also be low because

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RSTSEL

LDAC

SCLK

RST

SDI

Interface

Control

Serial

Logic

Figure 39. DAC8871 with External Amplifier

THEORY OF OPERATION (continued)

DGND

Input

Data

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REFH

-S

REFH

-F

Latch

DAC

REFL

DAC8871

-F

OUT

REFL

AGND

-S

are set to mid-scale.

OUT

6.2kW

-V

OPA277

OPA211

OUT

SBAS396 – JUNE 2007

pin is set to

DAC8871

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DAC8871_08 BURR-BROWN [Burr-Brown Corporation], DAC8871_08 Datasheet - Page 15

DAC8871_08

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