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參數(shù)資料

型號：	OPA633KP
英文描述：	High Speed BUFFER AMPLIFIER
中文描述：	高速緩沖放大器
文件頁數(shù)：	6/8頁
文件大?。?/td>	136K
代理商：	OPA633KP

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OPA633

APPLICATIONS INFORMATION

As with any high frequency circuitry, good circuit layout

technique must be used to achieve optimum performance.

Power supply connections must be bypassed with high

frequency capacitors. Many applications benefit from the

use of two capacitors on each power supply—a ceramic

capacitor for good high frequency decoupling and a tanta-

lum type for lower frequencies. They should be located as

close as possible to the buffer’s power supply pins. A large

ground plane is used to minimize high frequency ground

drops and stray coupling.

Pin 6 connects to the substrate of the integrated circuit and

should be connected to ground. In principle it could also be

connected to +V

or –V

, but ground is preferable. The

additional lead length and capacitance associated with sock-

ets may cause problems in applications requiring the highest

fidelity of high speed pulses.

Depending on the nature of the input source impedance, a

series input resistor may be required for best stability. This

behavior is influenced somewhat by the load impedance

(including any reactive effects). A value of 50

to 200

typical. This resistor should be located close to the OPA633’s

input pin to avoid stray capacitance at the input which could

reduce bandwidth (see Gain and Phase versus Frequency

curve).

OVERLOAD CONDITIONS

The input and output circuitry of the OPA633 are not

protected from overload. When the input signal and load

characteristics are within the devices’s capabilities, no pro-

tection circuitry is required. Exceeding device limits can

result in permanent damage.

The OPA633’s small package and high output current capa-

bility can lead to overheating. The internal junction tempera-

ture should not be allowed to exceed 150

C. Although

failure is unlikely to occur until junction temperature

exceeds 200

C, reliability of the part will be degraded

significantly at such high temperatures. Since significant

heat transfer takes place through the package leads, wide

printed circuit traces to all leads will improve heat sinking.

Sockets reduce heat transfer significantly and are not recom-

mended.

Junction temperature rise is proportional to internal power

dissipation. This can be reduced by using the minimum

supply voltage necessary to produce the required output

voltage swing. For instance, 1V video signals can be easily

handled with

5V power supplies thus minimizing the

internal power dissipation.

Output overloads or short circuits can result in permanent

damage by causing excessive output current. The 50

series output resistor used to match line impedance

will, in most cases, provide adequate protection. When this

resistor is not used, the device can be protected by limiting

the power supply current. See “Protection Circuits.”

Excessive input levels at high frequency can cause increased

internal dissipation and permanent damage. See the safe

input voltage versus frequency curves. When used to buffer

an op amp’s output, the input to the OPA633 is limited, in

most cases, by the op amp. When high frequency inputs can

exceed safe levels, the device must be protected by limiting

the power supply current.

PROTECTION CIRCUITS

The OPA633 can be protected from damage due to exces-

sive currents by the simple addition of resistors in series with

the power supply pins (Figure 5a). While this limits output

current, it also limits voltage swing with low impedance

loads. This reduction in voltage swing is minimal for AC or

high crest factor signals since only the average current from

the power supply causes a voltage drop across the series

resistor. Short duration load-current peaks are

supplied by the bypass capacitors.

The circuit of Figure 5b overcomes the limitations of the

previous circuit with DC loads. It allows nearly full output

voltage swing up to its current limit of approximately 140mA.

Both circuits require good high frequency capacitors (e.g.,

tantalum) to bypass the buffer’s power supply connections.

CAPACITIVE LOADS

The OPA633 is designed to safely drive capacitive loads up

to 0.01

F. It must be understood, however, that rapidly

changing voltages demand large output load currents:

LOAD

= C

LOAD

Thus, a signal slew rate of 1000V/

s and load capacitance of

0.01

F demands a load current of 10A. Clearly maximum

slew rates cannot be combined with large capacitive loads.

Load current should be kept less than 100mA continuous

(200mA peak) by limiting the rate of change of the input

signal or reducing the load capacitance.

USE INSIDE A FEEDBACK LOOP

The OPA633 may be used inside the feedback path of an op

amp such as the OPA602. Higher output current is achieved

without degradation in accuracy. This approach may actu-

ally improve performance in precision applications by re-

moving load-dependent dissipation from a precision op amp.

All vestiges of load-dependent offset voltage and tempera-

ture drift can be eliminated with this technique. Since the

buffer is placed within the feedback loop of the op amp, its

DC errors will have a negligible effect on overall accuracy.

Any DC errors contributed by the buffer are divided by the

loop gain of the op amp.

The low phase shift of the OPA633 allows its use inside the

feedback loop of a wide variety of op amps. To assure

stability, the buffer must not add significant phase shift to

the loop at the gain crossing frequency of the circuit—the

frequency at which the open loop gain of the op amp is equal

to the closed loop gain of the application. The OPA633 has

a typical phase shift of less than 10

up to 70MHz, thus

making it useful even with wideband op amps.

相關(guān)PDF資料	PDF描述
OPA635	Wideband, Single Supply OPERATIONAL AMPLIFIERS
OPA634N	ECONOLINE: RB & RA - Dual Output from a Single Input Rail- Power Sharing on Output- Industry Standard Pinout- 1kVDC & 2kVDC Isolation- Custom Solutions Available- UL94V-0 Package Material- Efficiency to 85%
OPA634U	Wideband, Single Supply OPERATIONAL AMPLIFIERS
OPA635N	Wideband, Single Supply OPERATIONAL AMPLIFIERS
OPA635U	Wideband, Single Supply OPERATIONAL AMPLIFIERS

相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
OPA633KP	制造商:BURR-BROWN 功能描述:IC AMP BUFFER 275MHZ DIP8 633 制造商:Texas Instruments 功能描述:Buffer Amplifier IC
OPA633KPG4	功能描述:高速運(yùn)算放大器 High Speed Buffer Amplifier RoHS:否制造商:Texas Instruments 通道數(shù)量:1 電壓增益 dB:116 dB 輸入補(bǔ)償電壓:0.5 mV 轉(zhuǎn)換速度:55 V/us 工作電源電壓:36 V 電源電流:7.5 mA 最大工作溫度:+ 85 C 安裝風(fēng)格:SMD/SMT 封裝 / 箱體:SOIC-8 封裝:Tube
OPA634	制造商:BB 制造商全稱:BB 功能描述:Wideband, Single Supply OPERATIONAL AMPLIFIERS
OPA634/OPA635	制造商:BB 制造商全稱:BB 功能描述:OPA634. OPA635 - SpeedPlus Wideband. Single Supply OPERATIONAL AMPLIFIERS
OPA634N	制造商:BB 制造商全稱:BB 功能描述:Wideband, Single Supply OPERATIONAL AMPLIFIERS

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