AD7225LNZ Analog Devices Inc, AD7225LNZ Datasheet - Page 10

AD7225LNZ

Manufacturer Part Number

AD7225LNZ

Description

IC DAC 8BIT LC2MOS QUAD 24-DIP

Manufacturer

Analog Devices Inc

Datasheet

1.AD7225CRSZ.pdf (24 pages)

Specifications of AD7225LNZ

Settling Time

4µs

Number Of Bits

Number Of Converters

Voltage Supply Source

Dual ±

Power Dissipation (max)

500mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Package / Case

24-DIP (0.300", 7.62mm)

Resolution (bits)

8bit

Sampling Rate

200kSPS

Input Channel Type

Parallel

Supply Current

10mA

Digital Ic Case Style

DIP

No. Of Pins

Data Interface

CMOS, Parallel, TTL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

AD7225LNZ

Manufacturer:

ADI

Quantity:

303

Current page: 10 of 24
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AD7225

INTERFACE LOGIC INFORMATION

The AD7225 contains two registers per DAC, an input register

and a DAC register. The A0 and A1 address lines select which

input register accepts data from the input port. When the WR

signal is low, the input latches of the selected DAC are transpa-

rent. The data is latched into the addressed input register on the

rising edge of

registers on the AD7225.

Table 5. AD7225 Addressing

Low

High

Only the data held in the DAC register determines the analog

output of the converter. The LDAC signal is common to all four

DACs and controls the transfer of information from the input

registers to the DAC registers. Data is latched into all four DAC

registers simultaneously on the rising edge of LDAC . The LDAC

signal is level triggered and therefore the DAC registers can be

made transparent by tying LDAC low (in this case, the outputs

of the converters respond to the data held in their respective

input latches). LDAC is an asynchronous signal and is indepen-

dent of WR . This is useful in many applications. However, in

systems where the asynchronous LDAC can occur during a

write cycle (or vice versa), care must be taken to ensure that

incorrect data is not latched through to the output. If LDAC is

activated prior to the rising edge of WR (or WR occurs during

LDAC ), LDAC must stay low for t

to ensure correct data is latched through to the output. Table 6

shows the truth table for AD7225 operation. Figure 12 shows

the input control logic for the part; the write cycle timing

diagram is given in Figure 13.

Table 6. Truth Table

High

Low

High

Low

LDAC

High

Low

High

Low

High

WR .

Function

No operation. Device not selected.

Input register of selected DAC transparent.

Input register of selected DAC latched.

All four DAC registers Transparent (that is,

outputs respond to data held in respective

input registers). Input registers are latched.

All four DAC registers latched.

DAC registers and selected input register

transparent output follows input data for

selected channel.

Table 5

Selected Input Register

DAC A

DAC B

DAC C

DAC D

shows the addressing for the input

or longer after WR

goes high

Rev. C | Page 10 of 24

LDAC

ADDRESS

NOTES

1. ALL INPUT SIGNAL RISE AND FALL TIMES MEASURED FROM

2. TIMING MEASUREMENT REFERENCE LEVEL IS

3. IF LDAC IS ACTIVATED PRIOR TO THE RISING EDGE OF WR,

DATA IN

10% TO 90% OF 5V.

THEN IT MUST STAY LOW FOR

GOES HIGH.

LDAC

INH

+ V

= 20ns OVER V

INL

INH

INL

Figure 13. Write Cycle Timing Diagram

Figure 12. Input Control Logic

VALID

DATA

RANGE.

OR LONGER AFTER WR

TO ALL

DAC LATCHES

TO INPUT

LATCH A

TO INPUT

LATCH B

TO INPUT

LATCH C

TO INPUT

LATCH D

AD7225LNZ Analog Devices Inc, AD7225LNZ Datasheet - Page 10

AD7225LNZ

Specifications of AD7225LNZ

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