AD7845AR データシートの表示（PDF） - Analog Devices

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AD7845AR

LC2MOS Complete 12-Bit Multiplying DAC

Analog Devices 

AD7845

Pin

1

2-11

12

13-14

15

16

17

18

19

20

21

22

23

24

Mnemonic

VOUT

DB11–DB2

DGND

DB1–DB0

WR

CS

VREF

AGND

VSS

VDD

RA

RB

RC

RFB

PIN FUNCTION DESCRIPTION (DIP)

Description

Voltage Output Terminal

Data Bit 11 (MSB) to Data Bit 2

Digital Ground. The metal lid on the ceramic package is connected to this pin

Data Bit 1 to Data Bit 0 (LSB)

Write Input. Active low

Chip Select Input. Active low

Reference Input Voltage which can be an ac or dc signal

Analog Ground. This is the reference point for external analog circuitry

Negative power supply for the output amplifier (nominal –12 V to +15 V)

Positive power supply (nominal +12 V to +15 V)

Application resistor. RA = 4 RFB

Application resistor. RB = 2 RFB

Application resistor. RC = 2 RFB

Feedback resistor in the DAC. For normal operation this is connected to VOUT

CIRCUIT INFORMATION

Digital Section

Figure 11 is a simplified circuit diagram of the AD7845 input

control logic. When CS and WR are both low, the DAC latch is

loaded with the data on the data inputs. All the digital inputs

are TTL, HCMOS and +5 V CMOS compatible, facilitating

easy microprocessor interfacing. All digital inputs incorporate

standard protection circuitry.

Each of the switches A–C steers 1/4 of the total reference cur-

rent with the remaining 1/4 passing through the R-2R section.

An output amplifier and feedback resistor perform the current-

to-voltage conversion giving

VOUT = – D × VREF

where D is the fractional representation of the digital word. (D

can be set from 0 to 4095/4096.)

The amplifier can maintain ± 10 V across a 2 kΩ load. It is inter-

nally compensated and settles to 0.01% FSR (1/2 LSB) in less

than 5 µs. The input offset voltage is laser trimmed at wafer

level. The amplifier slew rate is typically 11 V/µs, and the unity

gain small signal bandwidth is 600 kHz. There are three extra

on-chip resistors (RA, RB, RC) connected to the amplifier invert-

ing terminal. These are useful in a number of applications in-

cluding offset adjustment and gain ranging.

Figure 11. AD7845 Input Control Logic

D/A Section

Figure 12 shows a simplified circuit diagram for the AD7845

D/A section and output amplifier.

A segmented scheme is used whereby the 2 MSBs of the 12-bit

data word are decoded to drive the three switches A-C. The

remaining 10 bits drive the switches (S0–S9) in a standard R-2R

ladder configuration.

VREF

R

R

R

2R

2R 2R

C

B

A

2R

2R

S9

S8

2R 2R

S0

IOUT

SHOWN FOR ALL 1s ON DAC

AGND

Figure 12. Simplified Circuit Diagram for the AD7845 D/A

Section

–6–

REV. B

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