APEX PA79

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PA79
M I C R O T E C H N O L O G Y
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FEATURES
• A UNIQUE (Patent Pending) TECHNIQUE FOR VERY
LOW QUIESCENT CURRENT < 1 mA
• OVER 350 V/µS SLEW RATE
• WIDE SUPPLY VOLTAGE
• Single Supply: 10V to 350V
• Split Supplies: +/- 10V to +/- 175V
• OUTPUT CURRENT- 150mA cont. ; 200mA Pk
• DUAL AMPLIFIER
• UP TO TBD WATT DISSIPATION CAPABILITY
• OVER 200 kHz POWER BANDWIDTH
20-Pin PSOP
PACKAGE STYLE DK
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TYPICAL APPLICATION
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• PIEZOELECTRIC POSITIONING AND ACTUATION
• ELECTROSTATIC DEFLECTION
• DEFORMABLE MIRROR ACTUATORS
• CHEMICAL AND BIOLOGICAL STIMULATORS
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The PA79 is a dual high voltage, high speed Precision IC
power op amp with performance and unique features not
found previously in any commercially available OpAmp. This
approach provides a cost-effective, high density solution to
applications where multiple amplifiers are required.
Novel input stage design of this amplifier provides extremely
high slew rates in pulse applications while maintaining low
quiescent current of under 1mA. This novel input stage also
has the effect of adding variables to the power response and
slew rate characteristics of the amplifier. To a lesser degree,
there are also input related effects on open loop gain and
phase. It is important to note that slew rate for the PA79 is
independent of supply current. However the slew rate is a
strong function of input voltage amplitude.
The output stages are well protected with user defined
current limit although the Safe Operating Area (SOA) must
be observed for reliable protection. Proper heat sinking is
required for maintaining maximum reliability. External phase
compensation provides the user with great flexibility in trading
gain, stability and bandwidth.
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DESCRIPTION
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The typical application diagram shows a bridge connection
of the two amplifiers inside a dual PA79 and provides output
voltage swing twice that of one amplifier. Two possible situations where there is an advantage would be in applications
with low supply voltages, or applications that operate amplifiers
near their maximum voltage ratings in which a single amplifier
could not provide sufficient drive. The bridge connection also
effectively doubles the slew rate, and non-linearity becomes
symmetrical reducing second harmonic distortion in comparison to a single amplifier circuit.
EXTERNAL CONNECTIONS - DK Package
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NOTES:
1. The package heat slug needs to be connected to a stable reference such as gnd
for high slew rates. Please refer to special considerations section for details.
2. Supply bypassing required for –Vs and +Vs.
3. For Cc and Rc values refer to power supply biasing section.
4. Dimple and ESD triangle denotes pin 1.
APEX MICROTECHNOLOGY CORPORATION • TELEPHONE (520) 690-8600 • FAX (520) 888-3329 • ORDERS (520) 690-8601 • EMAIL [email protected]
PA79
ABSOLUTE MAXIMUM RATINGS
SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS
SUPPLY VOLTAGE, +VS to −VS
OUTPUT CURRENT, peak
POWER DISSIPATION, internal, DC
INPUT VOLTAGE, Differential
INPUT VOLTAGE, Common Mode
TEMPERATURE, pin solder, 10s
TEMPERATURE, junction2
TEMPERATURE RANGE, storage
OPERATING TEMPERATURE, case
350V
200mA, within SOA
TBD
±15V
±Vs
TBD
150°C.
−55 to 125°C.
−40 to 125°C
SPECIFICATIONS
PARAMETER
TEST CONDITIONS1
MIN
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TYP
MAX
INPUT
OFFSET VOLTAGE
8
40
OFFSET VOLTAGE vs. temperature
0 to 125°C (CaseTemperature)
−63
OFFSET VOLTAGE vs. supply
32
BIAS CURRENT, initial3
8.5
200
BIAS CURRENT vs. supply
OFFSET CURRENT, initial
12
400
INPUT RESISTANCE, DC
106
INPUT CAPACITANCE
COMMON MODE VOLTAGE RANGE, pos.
+VS - 2
COMMON MODE VOLTAGE RANGE, neg.
-VS + 5.5
COMMON MODE REJECTION, DC
90
TBD
NOISE
1MHz bandwidth, 1kΩRS
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GAIN
OPEN LOOP @ 15Hz
89
GAIN BANDWIDTH PRODUCT @ 1MHz
PHASE MARGIN
Full temperature range
IM
120
1
50
OUTPUT
VOLTAGE SWING
IO = 10mA
|VS| − 2
VOLTAGE SWING
IO = 100mA
TBD
|VS| − 12
VOLTAGE SWING
IO = 150mA |VS| − 10
CURRENT, continuous, DC
150
SLEW RATE
Package Tab Connected to GND
100
350
SETTLING TIME, to 0.1%
2V Step
TBD
POWER BANDWIDTH, 300VP-P
+VS = 160V, −VS = -160V
200
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POWER SUPPLY
VOLTAGE
CURRENT, quiescent
±150V Supply
±10
0.2
±150
0.7
±175
2.5
THERMAL
RESISTANCE, AC, junction to case5
Full temperature range, f ≥ 60Hz
RESISTANCE, DC, junction to case
Full temperature range, f < 60Hz
TBD
RESISTANCE, junction to air
Full temperature range
TEMPERATURE RANGE, case
−40
85
UNITS
mV
µV/°C
µV/V
pA
pA/V
pA
Ω
pF
V
V
dB
µV RMS
dB
MHz
°
V
V
V
mA
V/µS
µS
kHz
V
mA
°C/W
°C/W
°C/W
°C
NOTES: 1. Unless otherwise noted: TC = 25°C, DC input specifications are ± value given, power supply voltage is typical rating. Ratings
apply to one amplifier.
2. Long term operation at the maximum junction temperature will result in reduced product life. Derate power dissipation to achieve
high MTTF.
3. Doubles for every 10oC of temperature increase.
4. +VS and –VS denote the positive and negative supply voltages of the output stage.
5. Rating applies if output current alternates between both output transistors at a rate faster than 60Hz.
APEX MICROTECHNOLOGY CORPORATION • 5980 NORTH SHANNON ROAD • TUCSON, ARIZONA 85741 • USA • APPLICATIONS HOTLINE: 1 (800) 546-2739
PA79
TYPICAL PERFORMANCE
GRAPHS
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APEX MICROTECHNOLOGY CORPORATION • TELEPHONE (520) 690-8600 • FAX (520) 888-3329 • ORDERS (520) 690-8601 • EMAIL [email protected]
OPERATING
CONSIDERATIONS
PA79
GENERAL
POWER SUPPLY BYPASSING
Please read Application Note 1 “General Operating Considerations” which covers stability, power supplies, heat sinking,
mounting, current limit, SOA interpretation, and specification
interpretation. Visit www.apexmicrotech.com for design tools
that help automate tasks such as calculations for stability,
internal power dissipation, current limit, heat sink selection,
Apex’s complete Application Notes library, Technical Seminar
Workbook and Evaluation Kits.
Bypass capacitors to power supply terminals +Vs and –Vs
must be connected physically close to the pins to prevent local parasitic oscillation in the output stage of the PA79. Use
electrolytic capacitors at least 1μF. Bypass the electrolytic
capacitors with high quality ceramic capacitors (X7R) 0.1μF
or greater.
SPECIAL CONSIDERATIONS
It is very important to realize that in order to achieve
high frequency performance the heat sink tab has to be
tied to a stable, low impedance reference, i.e. power supply or GND. An AC connection through a 0.1µF capacitor
is also sufficient. Internal to the PA79, the heatsink tab
is electrically isolated to more than 350V . This may help
allay some electrical isolation concerns in tying the heat
sink to Vs or GND.
CURRENT LIMIT
For proper operation, the current limit resistor, Rlim, must
be connected as shown in the external connections diagram.
For maximum reliability and protection, the resistor should
be set as high as possible. The value of the resistor is calculated as follows, with Ilim in A; the maximum practical value
is 1500Ω.
Rlim = 0.7 / Ilim
SUPPLY CURRENT
The PA79 features a class A/B driver stage to drive the output
MOSFETs and an innovative input stage to achieve very high
slew rates. The supply current drawn by the PA79, even with
no load, varies with the slew rate of the output signal.
TBD
The MOSFET output stage of the PA79 is not limited by
second breakdown considerations as in bipolar output stages.
However there are still three distinct limitations:
1. Voltage with stand capability of the transistors.
2. Current handling capability of the die metallization.
3. Temperature of the output MOSFETS.
These limitations can be seen in the SOA (see Safe Operating Area graphs). Note that each pulse capability line shows
a constant power level (unlike second breakdown limitations
where power varies with voltage stress). These lines are
shown for a case temperature of 25°C and correspond to
thermal resistances of TBD°C/W for the PA79DK. Pulse stress
levels for other case temperatures can be calculated in the
same manner as DC power levels at different temperatures.
The output stage is protected against transient fly back by
the parasitic diodes of the output stage MOSFET structure.
However, for protection against sustained high energy fly back
external fast-recovery diodes must be used.
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STABILITY
The PA79 is externally compensated and performance
can be tailored to the application. Use the graphs of small
signal response and power response as a guide. Due to the
innovative design of the PA79, two compensation networks
are required. The values of these components should be the
same to provide symmetric slew rate characteristics. The
compensation capacitor Cc must be rated at 500V working
voltage. NPO capacitors are recommended. The compensation networks CcRc must be mounted closely to the amplifier
pins x & y and z & w to avoid spurious oscillation.
The PA79 may require an external 33 pF capacitor (minimum breakdown of 350V) between Cc- and –Vs to prevent
oscillations in the falling edge of the output. This capacitor
is provided with the evaluation kit. Please refer to EK60U
datasheet for details.
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SAFE OPERATING AREA
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HEATSINKING
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This data
sheet has been carefullyCORPORATION
checked and is believed
to be NORTH
reliable, however,
no responsibility
is assumed for
possible inaccuracies
omissions.
All specifications HOTLINE:
are subject to1change
without
notice.
APEX
MICROTECHNOLOGY
• 5980
SHANNON
ROAD • TUCSON,
ARIZONA
85741 •orUSA
• APPLICATIONS
(800)
546-2739
PA79U REV 2 FEBRUARY 2006 © 2006 Apex Microtechnology Corp.