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您現(xiàn)在的位置：買賣IC網(wǎng) > PDF目錄376559 > DAC7528 (Texas Instruments, Inc.) CMOS Dual 8-Bit Buffered Multiplying Digital-To-Analog Converter(CMOS雙路8位緩沖乘法型D/A轉(zhuǎn)換器) PDF資料下載

參數(shù)資料

型號：	DAC7528
廠商：	Texas Instruments, Inc.
英文描述：	CMOS Dual 8-Bit Buffered Multiplying Digital-To-Analog Converter(CMOS雙路8位緩沖乘法型D/A轉(zhuǎn)換器)
中文描述：	CMOS雙8位緩沖乘法數(shù)字到模擬轉(zhuǎn)換器（的CMOS雙路8位緩沖乘法型的D / A轉(zhuǎn)換器）
文件頁數(shù)：	6/8頁
文件大?。?/td>	108K
代理商：	DAC7528

第1頁第2頁第3頁第4頁第5頁當(dāng)前第6頁第7頁第8頁

DAC7528

POWER SUPPLY CONNECTIONS

The DAC7528 is designed to operate on V

= +5V +10%.

For optimum performance and noise rejection, power supply

decoupling capacitors C

should be added as shown in the

application circuits. These capacitors (1

F tantalum recom-

mended) should be located close to the D/A. AGND and

DGND should be connected together at one point only, pre-

ferably at the power supply ground point. Separate returns

minimize current flow in low-level signal paths if properly

connected. Output op amp analog common (+ input) should

be connected as near to the AGND pin of the DAC7528 as

possible.

WIRING PRECAUTIONS

To minimize AC feedthrough when designing a PC board,

care should be taken to minimize capacitive coupling be-

tween the V

REF

lines and the I

OUT

lines. Similarly, capacitive

coupling between DACs may compromise the channel-to-

channel isolation. Coupling from any of the digital control or

data lines might degrade the glitch and digital crosstalk

performance. Solder the DAC7528 directly into the

board without a socket. Sockets add parasitic capacitance

(which can degrade AC performance).

AMPLIFIER OFFSET VOLTAGE

The output amplifier used with the DAC7528 should have

low input offset voltage to preserve the transfer function

linearity. The voltage output of the amplifier has an error

component which is the offset voltage of the op amp multi-

plied by the “noise gain” of the circuit. This “noise gain” is

equal to (R

+ 1) where R

is the output impedance of

the D/A I

OUT

terminal and R

is the feedback network

impedance. The nonlinearity occurs due to the output im-

pedance varying with code. If the 0 code case is excluded

(where R

= infinity), the R

will vary from R to 3R

providing a “noise gain” variation between 4/3 and 2. In

addition, the variation of R

is nonlinear with code, and the

largest steps in R

occur at major code transitions where the

worst differential nonlinearity is also likely to be experi-

enced. The nonlinearity seen at the amplifier output is

2VOS – 4V

/3 = 2V

/3. Thus, to maintain good

nonlinearity the op amp offset should be much less than

1/2LSB.

UNIPOLAR CONFIGURATION

Figure 3 shows DAC7528 in a typical unipolar (two-quad-

rant) multiplying configuration. The analog output values

versus digital input code are listed in Table I. The opera-

tional amplifiers used in this circuit can be single amplifiers

such as the OPA602, or a dual amplifier such as the OPA2107.

C1 and C2 provide phase compensation to minimize settling

time and overshoot when using a high speed operational

FIGURE 3. Unipolar Configuration 2 Quadrant Multiplica-

tion.

DAC A

OUT A

DAC B

OUT B

FB B

FB A

10pF

DAC7528

OUT A

OUT B

–

DGND

REF B

REF A

+5V

1μF

A1, A2 OPA602 or 1/2 OPA2107.

AGND

OUT

= – D

256

REF

amplifier.

If an application requires the D/A to have zero gain error, the

circuit shown in Figure 4 may be used. Resistors R2 and R4

induce a positive gain error greater than worst-case initial

negative gain error. Trim resistors R1 and R3 provide a

variable negative gain error and have sufficient trim range to

correct for the worst-case initial positive gain error plus the

error produced by R2 and R4.

BIPOLAR CONFIGURATION

Figure 5 shows the DAC7528 in a typical bipolar (four-

quadrant) multiplying configuration. The analog output val-

ues versus digital input code are listed in Table II.

The operational amplifiers used in this circuit can be single

amplifiers such as the OPA602, a dual amplifier such as the

OPA2107, or a quad amplifier like the OPA404. C1 and C2

provide phase compensation to minimize settling time and

overshoot when using a high speed operational amplifier.

The bipolar offset resistors R1–R3 and R4–R6 should be

ratio-matched to 0.195% to ensure the specified gain error

performance.

相關(guān)PDF資料	PDF描述
DAC7541AJP-BI	Low Cost 12-Bit CMOS Four-Quadrant Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC7541AJPG4	Low Cost 12-Bit CMOS Four-Quadrant Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC7541AJUG4	Low Cost 12-Bit CMOS Four-Quadrant Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC7541AKP-BI	Low Cost 12-Bit CMOS Four-Quadrant Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC7541AKPG4	Low Cost 12-Bit CMOS Four-Quadrant Multiplying DIGITAL-TO-ANALOG CONVERTER

相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
DAC7528P	制造商:BB 制造商全稱:BB 功能描述:CMOS Dual 8-Bit Buffered Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC7528PB	制造商:BB 制造商全稱:BB 功能描述:CMOS Dual 8-Bit Buffered Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC7528U	制造商:BB 制造商全稱:BB 功能描述:CMOS Dual 8-Bit Buffered Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC7528UB	制造商:BB 制造商全稱:BB 功能描述:CMOS Dual 8-Bit Buffered Multiplying DIGITAL-TO-ANALOG CONVERTER
DAC-7533	制造商:未知廠家制造商全稱:未知廠家功能描述:10-Bit Digital-to-Analog Converter

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