PA34 Просмотр технического описания (PDF) - Unspecified

Номер в каталоге

Компоненты Описание

производитель

PA34

POWER OPERATIONAL AMPLIFIERS

Unspecified 

OPERATING

CONSIDERATIONS

PA34

+VS ≤ 20V

DB1

DB2

7 3 10

CB1

5

CB2

SPEAKER

Using this voltage as a feedback source allows expressing

the gain of the circuit in amperes vs input voltage. The transfer

funcion is approximately:

IL= (VIN – VREF) *RIN/ RFB/ Rs

In the illustration, resistors RIN, RFB and RS determine

gain.

8

FIGURE 3. SIMPLE BOOTSTRAPPING IMPROVES POSITIVE

OUTPUT SWING. CONNECT PINS 3 AND 10 TO VS IF NOT

USED. TYPICAL CURRENTS ARE 12mA EACH.

VBOOST pin requires approximately 10–12mA of current.

Dynamically it represents 1K Ω impedance. The maximum

voltage that can be applied to VBOOST is 40 volts with

respect to –VS . There is no limit to the difference between

+VS and VBOOST.

Figure 3 shows a bootstrap which dynamically couples the

output waveform onto the VBOOST pin. This causes VBOOST

to swing positive from it's initial value, which is equal to +VS

-0.7 V (one diode drop), an amount equal to the output. In

other words, if VBOOST was initially 19.3, and the output

swings positive 18 Volts, the voltage on the VBOOST pin

will swing to 19.3 -0.7 + 18 or 36.6. The capacitor needs

to be sized based on a 1K Ω impedance and the lowest

frequency required by the circuit. For example, 20Hz will

require > 8uF.

ISENSE

The ISENSE pin is in series with the negative half of the

output stage only. Current will flow through this pin only when

negative current is being outputted. The current that flows

in this pin is the same current that flows in the output (if

–1A flows in the output, the ISENSE pin will have 1A of

current flow, if +1A flows in the output the ISENSE pin will

have 0 current flow).

The resistor choice is arbitrary and is selected to provide

whatever voltage drop the engineer desires, up to a maximum

of 1.0 volt. However, any voltage dropped across the resistor

will subract from the swing to rail. For instance, assume a

+/–12 volt power supply and a load that requires +/–1A. With

no current sense resistor the output could swing +/–10.2

volts. If a 1 Ω resistor is used for current sense (which

will drop 1 Volt at 1 Amp) then the output could swing

+10.2, –9.2 Volts.

Figure 4 shows the PA34 ISENSE feature being used to

obtain a Transconductance function. In this example, amplifier

"A" is the master and amplifier "B" is the slave. Feedback

from sensing resistors RS is applied to the summing network

and scaled to the inverting input of amplifier "A" where it is

compared to the input voltage. The current sensing feedback

imparts a Transconductance feature to the amplifiers transfer

function. In other words, the voltage developed across the

sensing resistors is directly proportional to the output current.

+VS

C

VBIAS

B

R

RL IL

VIN

A

R

RFB

RIN

RS

RS RIN RFB

–VS OR GND

VREF

FIGURE 4. ISENSE TRANSCONDUCTANCE BRIDGING

AMPLIFIER

VBIAS should be set midway between +Vs and -Vs, Vref

is usually ground in dual supply systems or used for level

translation in single supply systems.

MOUNTING PRECAUTIONS

1. Always use a heat sink. Even unloaded, the PA34 can

dissipate up to 3.6 watts. A thermal washer or thermal

grease should always be used.

2. Avoid bending the leads. Such action can lead to internal

damage.

3. Always fasten the tab to the heat sink before the leads are

soldered to fixed terminals.

4. Strain relief must be provided if there is any probability of

axial stress to the leads.

ATPhEisXdaMtaICshReOetThEaCsHbNeeOnLcOarGefYullCyOchRePckOeRdAaTndIOisNbe•lieTvEedLEtoPbHeOreNliEab(le5,2h0ow)e6ve9r,0n-o8r6e0sp0on•sibFiAlitXy i(s5a2ss0u)me8d8f8or-3po3s2si9ble•inOaRccDurEaRciSes(o5r 2om0)iss6io9n0s.-A8l6l s0p1ec•ificEaMtioAnIsLarpe rsoubdjleictt@toacphaenxgme wicitrhootuetcnhot.icceo.m

PA34U REV. 1 JANUARY 2001© 2001 Apex Microtechnology Corp.

5

Share Link: