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19-5200; Rev 1; 4/11
TION KIT EVALUA BLE ILA AVA
36V, Precision, Low-Noise, Wide-Band Amplifier
Features
S 0.94nV/Hz Ultra-Low Input Voltage Noise S Very Fast 600ns Settling Time to 16-Bit Accuracy S THD of -128dB at 10kHz S Low Input Offset Voltage 125V (max) S Low Input Offset Temperature Drift 0.5V/C (max) S Gain-Bandwidth Product 55MHz S +4.5V to +36V Wide Supply Range S Rail-to-Rail Output S Unity-Gain Stable S 8-Pin SO and TDFN Packages S ESD 8kV HBM and 1kV CDM
General Description
The MAX9632 is a low-noise, precision, wide-band operational amplifier that can operate in a very wide +4.5V to +36V supply voltage range. The IC operates in dual (18V) mode. The exceptionally fast settling time and low distortion make the IC an excellent solution for precision acquisition systems. The rail-to-rail output swing maximizes the dynamic range when driving high-resolution 24-bit ADCs even with low supply voltages. The IC achieves 55MHz of gain-bandwidth product and ultra-low 0.94nV/Hz input voltage noise with only 3.9mA of quiescent current. The IC is offered in 8-pin SO and TDFN packages and is rated for operation over the -40NC to +125NC temperature range.
MAX9632
Applications
High-Resolution ADC Drivers High-Resolution DAC Buffers Medical Imaging Low-Noise Signal Processing Test and Measurement Systems ATE
PART MAX9632ASA+ MAX9632ATA+
Ordering Information
TEMP RANGE -40NC to +125NC -40NC to +125NC PINPACKAGE 8 SO 8 TDFN-EP* TOP MARK -- BML
+Denotes a lead(Pb)-free/RoHS-compliant package. *EP = Exposed pad.
INPUT-VOLTAGE NOISE DENSITY vs. FREQUENCY
MAX9632 toc12
TOTAL HARMONIC DISTORTION vs. OUTPUT VOLTAGE
TOTAL HARMONIC DISTORTION (THD) -90 -100 -110 -120 -130 -140 -150 -160 0.1 1 OUTPUT VOLTAGE (V) 10 f = 1kHz f = 10kHz
MAX9632 toc23
1.8 INPUT-VOLTAGE NOISE DENSITY (nV/Hz) 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 10 100 1k FREQUENCY (Hz) 10k
-80
100k
_______________________________________________________________ Maxim Integrated Products 1
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com.
36V, Precision, Low-Noise, Wide-Band Amplifier MAX9632
ABSOLUTE MAXIMUM RATINGS
VCC to VEE ............................................................-0.3V to +40V All Other Pins..................................(VEE - 0.3V) to (VCC + 0.3V) Short-Circuit (GND) Duration, OUT ....................................... 10s Continuous Input Current (any pin)................................. Q20mA Continuous Power Dissipation (TA = +70NC) (Note 1) Multilayer SO (derate 7.4mW/NC above +70NC) .........588mW Multilayer TDFN (derate 23.8mW/NC above +70NC) ...1905mW ESD Protection HBM .............................................................................................. 8kV CDM................................................................................... 1kV Operating Temperature Range ........................ -40NC to +125NC Junction Temperature .....................................................+150NC Lead Temperature (soldering, 10s) ................................+300NC Soldering Temperature (reflow) ......................................+260NC
Stresses beyond those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
PACKAGE THERMAL CHARACTERISTICS (Note 1)
TDFN Junction-to-Ambient Thermal Resistance (qJA) ..........42C/W Junction-to-Case Thermal Resistance (qJC) .................8C/W SO Junction-to-Ambient Thermal Resistance (qJA) ........136C/W Junction-to-Case Thermal Resistance (qJC) ...............38C/W
Note 1: Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a fourlayer board. For detailed information on package thermal considerations, refer to www.maxim-ic.com/thermal-tutorial.
ELECTRICAL CHARACTERISTICS
(VCC = 15V, VEE = -15V, RL = 10kI to VGND, VIN+ = VIN- = VGND = 0V, VSHDN = VGND, TA = -40NC to +125NC. Typical values are at TA = +25NC, unless otherwise noted.) (Note 2) PARAMETER POWER SUPPLY Supply Voltage Range Supply Current Power-Supply Rejection Ratio SHUTDOWN Device disabled Shutdown Input Voltage VSHDN Device enabled Shutdown Current DC SPECIFICATIONS Input Offset Voltage Input Offset Voltage Drift Input Bias Current Input Offset Current Input Common-Mode Range VOS QDVOS IB IOS VCM Guaranteed by CMRR VEE + 1.8 TA = +25NC -40NC P TA P +125NC (Note 3) 30 0.15 30 15 125 165 0.5 180 100 VCC 1.4 FV FV/NC nA nA V ISHDN VSHDN = VCC VCC - 0.35 VEE 1 VCC VCC - 3.0 15 V VCC ICC PSRR TA = +25NC -40NC P TA P +125NC 125 120 Guaranteed by PSRR 4.5 3.9 140 36 6.5 V mA dB SYMBOL CONDITIONS MIN TYP MAX UNITS
FA
2
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36V, Precision, Low-Noise, Wide-Band Amplifier
ELECTRICAL CHARACTERISTICS (continued)
(VCC = 15V, VEE = -15V, RL = 10kI to VGND, VIN+ = VIN- = VGND = 0V, VSHDN = VGND, TA = -40NC to +125NC. Typical values are at TA = +25NC, unless otherwise noted.) (Note 2) PARAMETER Common-Mode Rejection Ratio SYMBOL CMRR CONDITIONS VEE + 1.8V P VCM P VCC - 1.4V, TA = +25NC VEE + 1.8V P VCM P VCC - 1.4V, -40NC P TA P +125NC VEE + 0.2V P VOUT P VCC - 0.2V, RL = 10kI VEE + 0.6V P VOUT P VCC - 0.6V, RL = 600I VCC - VOUT VOUT - VEE TA = +25NC RL = 10kI RL = 600I RL = 10kI RL = 600I MIN 120 110 125 120 140 135 50 150 50 150 56 55 0 P VOUT P 5V To 0.0015%, VOUT = 10VP-P, CL = 100pF, AV = 1V/V f = 1kHz, VOUT = 3VRMS, RL = 600I, AV = 1V/V f = 10kHz, VOUT = 3VRMS, RL = 600I, AV = 1V/V f = 1kHz 0.1Hz P f P 10Hz iN CL f = 1kHz No sustained oscillation, AV = 1V/V 30 600 -136 dB -128 0.94 65 3.75 350 nV/Hz nVP-P pA/Hz pF 150 400 150 400 mA MHz V/Fs ns mV TYP 135 dB MAX UNITS
MAX9632
Large-Signal Gain
AVOL VOH
dB
Output Voltage Swing VOL Short-Circuit Current AC SPECIFICATIONS Gain-Bandwidth Product Slew Rate Settling Time GBWP SR tS ISC
Total Harmonic Distortion
THD
Input-Voltage Noise Density Input Voltage Noise Input-Current Noise Density Capacitive Loading
eN
Note 2: All devices are 100% production tested at TA = +25NC. Temperature limits are guaranteed by design. Note 3: Guaranteed by design.
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36V, Precision, Low-Noise, Wide-Band Amplifier MAX9632
Typical Operating Characteristics
(VCC = 15V, VEE = -15V, RL = 10kI to VGND, VIN+ = VIN- = VGND = 0V, VSHDN = VGND, TA = -40NC to +125NC. Typical values are at TA = +25NC, unless otherwise noted.)
INPUT OFFSET VOLTAGE HISTOGRAM
MAX9632 toc01
INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT HISTOGRAM
MAX9632 toc02
SUPPLY CURRENT vs. SUPPLY VOLTAGE
4.8 4.6 SUPPLY CURRENT (mA) 4.4 4.2 4.0 3.8 3.6 3.4 3.2 3.0
MAX9632 toc03
35 30 OCCURANCE (%) 25 20 15 10 5 0 0 10 20 30 40 50
25 20 OCCURANCE (%) 15 10 5 0 0
5.0
60
20 40 60 80 100 120 140 160 180 200 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT (nV/C)
0
5
10
15
20
25
30
35
40
INPUT OFFSET VOLTAGE (V)
SUPPLY VOLTAGE (V)
SUPPLY CURRENT vs. TEMPERATURE
MAX9632 toc04
INPUT OFFSET VOLTAGE vs. COMMON-MODE VOLTAGE
-42 INPUT OFFSET VOLTAGE (V) -44 -46 -48 -50 -52 -54 -56 -58 TA = +125C -15 -10 -5 0 5 10 15 TA = +25C TA = 0C TA = +85C TA = -40C
MAX9632 toc05
INPUT BIAS CURRENT vs. INPUT COMMON-MODE VOLTAGE
-10 INPUT BIAS CURRENT (nA) -20 -30 -40 -50 -60 -70 -15 -10 -5 TA = 0C TA = -40C 0 5 10 15 TA = +85C TA = +25C TA = +125C
MAX9632 toc06
5.0 4.8 4.6 SUPPLY CURRENT (mA) 4.4 4.2 4.0 3.8 3.6 3.4 3.2 3.0 -50 -25 0 25 50 75 100
-40
0
125
TEMPERATURE (C)
COMMON-MODE VOLTAGE (V)
COMMON-MODE VOLTAGE (V)
COMMON-MODE REJECTION RATIO vs. FREQUENCY
MAX9632 toc07
POWER-SUPPLY REJECTION RATIO vs. FREQUENCY
POWER-SUPPLY REJECTION RATIO (dB) 0 -20 -40 -60 -80 -100 -120 -140 -160 1 10 100 1k 10k 100k 1M 10M 100M
MAX9632 toc08
OUTPUT VOLTAGE HIGH vs. OUTPUT CURRENT (SOURCE)
15.0 OUTPUT VOLTAGE HIGH (V) 14.9 14.8 14.7 14.6 14.5 14.4 0 10 20 30 40 50 60 TA = -40C TA = +125C TA = +85C TA = +25C TA = 0C
MAX9632 toc09
20 COMMON-MODE REJECTION RATIO (dB) 0 -20 -40 -60 -80 -100 -120 -140 -160 1 10 100 1k
20
15.1
10k 100k 1M 10M 100M
FREQUENCY (Hz)
FREQUENCY (Hz)
OUTPUT SOURCE CURRENT (mA)
4
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36V, Precision, Low-Noise, Wide-Band Amplifier
Typical Operating Characteristics (continued)
(VCC = 15V, VEE = -15V, RL = 10kI to VGND, VIN+ = VIN- = VGND = 0V, VSHDN = VGND, TA = -40NC to +125NC. Typical values are at TA = +25NC, unless otherwise noted.)
OUTPUT VOLTAGE LOW vs. OUTPUT CURRENT (SINK)
MAX9632 toc10
MAX9632
OPEN-LOOP GAIN vs. FREQUENCY
MAX9632 toc11
INPUT-VOLTAGE NOISE DENSITY vs. FREQUENCY
INPUT-VOLTAGE NOISE DENSITY (nV/Hz) 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 10 100 1k FREQUENCY (Hz) 10k 100k
MAX9632 toc12
-14.55 -14.60 OUTPUT VOLTAGE LOW (V) -14.65 -14.70 -14.75 -14.80 -14.85 -14.90 -14.95 -15.00 0 10 20 30 40 50 TA = -40C TA = +25C TA = +85C TA = +125C TA = 0C
160 140 120 OPEN-LOOP GAIN (dB) 100 80 60 40 20 0 -20
1.8
60
1
10
100
1k
10k 100k 1M 10M 100M
OUTPUT SINK CURRENT (mA)
FREQUENCY (Hz)
0.1Hz TO 10Hz NOISE vs. TIME
MAX9632 toc13
INPUT-CURRENT NOISE DENSITY vs. FREQUENCY
MAX9632 toc14
OUTPUT IMPEDANCE vs. FREQUENCY
60 OUTPUT IMPEDANCE (I) 50 40 30 20 10
MAX9632 toc15
25 INPUT CURRENT NOISE DENSITY (pA/Hz) 20 15 10 5 0
70
20nV/div
10s/div
10
100
1k FREQUENCY (Hz)
10k
100k
0 10 100 1k 10k 100k 1M 10M 100M FREQUENCY (Hz)
INPUT SMALL-SIGNAL STEP RESPONSE
MAX9632 toc16
INPUT LARGE-SIGNAL STEP RESPONSE
MAX9632 toc17
STABILITY vs. CAPACITIVE AND RESISTIVE LOAD PARALLEL
900 800 RESISTIVE LOAD (I) 700 600 500 400 300 200 100 0 STABLE 0 200 400 600 800 1000 1200 UNSTABLE
MAX9632 toc18
1000
INPUT 100mV/div
INPUT 2V/div
OUTPUT 50mV/div
OUTPUT 500mV/div
200ns/div
1s/div
CAPACITIVE LOAD (pF)
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5
36V, Precision, Low-Noise, Wide-Band Amplifier MAX9632
Typical Operating Characteristics (continued)
(VCC = 15V, VEE = -15V, RL = 10kI to VGND, VIN+ = VIN- = VGND = 0V, VSHDN = VGND, TA = -40NC to +125NC. Typical values are at TA = +25NC, unless otherwise noted.)
ISOLATION RESISTANCE vs. CAPACITIVE STABILITY
MAX9632 toc19
10 9 ISOLATION RESISTANCE (I) 8 7 6 5 4 3 2 1 0 STABLE UNSTABLE
POWER-UP TIME VCC = 5V, VEE = -5V
VCC 10V/div GND
MAX9632 toc20
OUTPUT 500mV/div GND
0 100 200 300 400 500 600 700 800 900 1000 CAPACITIVE LOAD (pF)
1s/div
RECOVERY FROM SHUTDOWN VCC = 5V, VEE = -5V
SHDN 5V/div GND
MAX9632 toc21
TOTAL HARMONIC DISTORTION vs. FREQUENCY
TOTAL HARMONIC DISTORTION (dB)
MAX9632 toc22
-100 -110 -120 -130 -140 -150 -160 10 100 1k FREQUENCY (Hz) 10k
OUTPUT 500mV/div GND
1s/div
100k
TOTAL HARMONIC DISTORTION vs. OUTPUT VOLTAGE
TOTAL HARMONIC DISTORTION (THD) -90 -100 -110 -120 -130 -140 -150 -160 0.1 1 OUTPUT VOLTAGE (V) 10 f = 1kHz f = 10kHz
MAX9632 toc23
-80
6
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36V, Precision, Low-Noise, Wide-Band Amplifier
Pin Configuration
MAX9632
TOP VIEW NOT TO SCALE +
N.C. ININ+ VEE 1 2 3 4 8 7 SHDN VCC OUT N.C. N.C. ININ+ VEE 1 2 3 4
+
8 7
SHDN VCC OUT N.C.
MAX9632
6 5
MAX9632
6 5
EP
SO
TDFN
Pin Description
PIN 1, 5 2 3 4 6 7 8 -- NAME N.C. ININ+ VEE OUT VCC SHDN EP Not Connected Negative Input Positive Input Negative Supply Voltage Output Positive Supply Voltage Active-High Shutdown Exposed Pad (TDFN Only). Connect to a large VEE plane to maximize thermal performance. Not intended as an electrical connection point. FUNCTION
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7
36V, Precision, Low-Noise, Wide-Band Amplifier MAX9632
Detailed Description
The MAX9632 is designed in a new 36V, high-speed complementary BiCMOS process that is optimized for excellent AC dynamic performance combined with highvoltage operation. The IC offers precision, high-bandwidth, ultra-low noise and exceptional distortion performance. The IC is unity-gain stable and operates either with single-supply voltage up to 36V or with dual supplies up to Q18V.
Figure 1. Input Protection Circuit
Applications Information
The IC can operate with dual supplies from Q2.25V to Q18V or with a single supply from +4.5V to +36V with respect to ground. Even though the IC supports highvoltage operation with excellent performance, the device can also operate in very popular applications at 5V.
Operating Supply Voltage
During normal op-amp operation, the inverting and noninverting inputs of the IC are at essentially the same voltage. However, either due to fast input voltage transients or other fault conditions, these inputs can be forced to be at two different voltages. Internal back-to-back diodes protect the inputs from an excessive differential voltage (Figure 1). Therefore, IN+ and IN- can be any voltage within the range shown in the Absolute Maximum Ratings section. Note the protection time is still dependent on the package thermal limits. If the input signal is fast enough to create the internal diodes' forward bias condition, the input signal current must be limited to 20mA or less. If the input signal current is not inherently limited, an input series resistor can be used to limit the signal input current. Care should be taken in choosing the input series resistor value, since it degrades the low-noise performance of the device. The shutdown is referenced to the positive supply. See the Electrical Characteristics table for the proper levels of functionality. A high level (above VCC - 0.35V) disables the op amp and puts the output into a high-impedance state. A low level (below VCC - 3V) enables the device. As an example, if the op amp is powered with dual supplies of Q15V, the device is enabled when shutdown is at or below 12V. The device is disabled when shutdown is at or above 14.65V. If the op amp is powered with a single supply of 36V, the device is enabled when shutdown is at or below 33V. The device is disabled when shutdown is at or above 35.65V. This input must be connected to a valid high or low voltage and should not be left disconnected. The MAX9632 can operate with dual supplies from Q2.25V to Q18V or with a single supply from +4.5V to +36V with respect to ground. When used with dual supplies, bypass both VCC and VEE with their own 0.1FF capacitor to ground. When used with a single supply, bypass VCC with a 0.1FF capacitor to ground.
Input Differential Voltage Protection
The IC is designed for extremely low-noise applications such as professional audio equipment, very high performance instrumentations, automated test equipment, and medical imaging. The low noise, combined with fast settling time, makes it ideal to drive high-resolution sigmadelta or SARs analog-to-digital converters. The IC is also designed for ultra-low-distortion performance. THD specifications in the Electrical Characteristics table and Typical Operating Characteristics are calculated up to the fifth harmonic. Even when driving highvoltage swing up to 10VP-P, the IC maintains excellent low distortion operation over and above 100kHz of bandwidth. The output stage swings to within 50mV (typ) of either power-supply rail with a 10kI load and provides a 55MHz GBW with a 30V/s slew rate. The device is unity-gain stable and can drive a 100pF capacitive load without compromising stability. Stability with higher capacitive loads can be improved by adding an isolation resistor in series with the op-amp output. This resistor improves the circuit's phase margin by isolating the load capacitor from the amplifier's output. The Typical Operating Characteristics show a profile of the isolation resistor and capacitive load values that maintain the device into the stable region.
Low Noise and Low Distortion
Shutdown
Rail-to-Rail Output Stage
Power Supplies and Layout
8
______________________________________________________________________________________
36V, Precision, Low-Noise, Wide-Band Amplifier
Careful layout technique helps optimize performance by decreasing the amount of stray capacitance at the op amp's inputs and outputs. To decrease stray capacitance, minimize trace lengths by placing external components close to the op amp's pins. For high-frequency designs, ground vias are critical to provide a ground return path for high-frequency signals and should be placed near the decoupling capacitors. Signal routing should be short and direct to avoid parasitic effects. Avoid using right angle connectors since they may introduce a capacitive discontinuity and ultimately limit the frequency response. The IC has built-in circuits to protect it from ESD events. An ESD event produces a short, high-voltage pulse that is transformed into a short current pulse once it discharges through the device. The built-in protection circuit provides a current path around the op amp that prevents it from being damaged. The energy absorbed by the protection circuit is dissipated as heat. ESD protection is guaranteed up to Q8kV with the Human Body Model (HBM). The Human Body Model simulates the ESD phenomenon wherein a charged body directly transfers its accumulated electrostatic charge to the ESD-sensitive device. A common example of this phenomenon is when a person accumulates static charge by walking across a carpet and then transfers all of the charge to an ESD-sensitive device by touching it. Not all ESD events involve the transfer of charge into the device. ESD from a charged device to another body is also a common form of ESD. If a charged device comes into contact with another conductive body that is at a lower potential, it discharges into that body. Such an ESD event is known as Charged Device Model (CDM) ESD, which can be even more destructive than HBM ESD (despite its shorter pulse duration) because of its high current. The IC guarantees CDM ESD protection up to Q1kV. The MAX9632's excellent AC specifications and 55MHz bandwidth are a good fit for driving high-speed, precision delta-sigma ADCs. These ADCs require an ultra-low noise op amp to achieve signal-to-noise ratios (SNR) better than 100dB. The MAX11040 is a 24-bit, 4-channel, simultaneous-sampling ADC with 117dB SNR at 1ksps and 106dB at 16ksps. The MAX11040 measures analog inputs up to Q2.2V. Sampling up to 64ksps, the MAX11040 achieves better than -94dB THD and 94dB SFDR. The MAX11040 measures four differential inputs simultaneously, outputting the data through an SPITM interface to allow daisy-chaining the data outputs and inputs together. Therefore, up to eight MAX11040 devices can be placed in parallel to measure up to 32 inputs simultaneously. This is ideal for 3-phase power monitoring that requires multiple current and voltage readings and very wide dynamic range. The Typical Application Circuit shows an example of the MAX9632 driving the MAX11040.
MAX9632
Driving High-Resolution Sigma-Delta ADCs
Electrostatic Discharge (ESD)
Chip Information
PROCESS: BiCMOS
SPI is a trademark of Mototrola, Inc.
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9
36V, Precision, Low-Noise, Wide-Band Amplifier MAX9632
Typical Application Circuit
22F IN+
1kI
+15V 180I
4.7kI
10kI
MAX9632
-15V 1nF -15V 1F 4.7kI 10kI 180I
MAX9632 MAX11040
ADC
IN22F 1kI +15V
10
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36V, Precision, Low-Noise, Wide-Band Amplifier
Package Information
For the latest package outline information and land patterns (footprints), go to www.maxim-ic.com/packages. Note that a "+", "#", or "-" in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status.
PACKAGE TYPE 8 SO 8 TDFN-EP PACKAGE CODE S8+2 T833+3 OUTLINE NO. 21-0041 21-0137 LAND PATTERN NO. 90-0096 90-0058
MAX9632
______________________________________________________________________________________
11
36V, Precision, Low-Noise, Wide-Band Amplifier MAX9632
Package Information (continued)
For the latest package outline information and land patterns (footprints), go to www.maxim-ic.com/packages. Note that a "+", "#", or "-" in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status.
COMMON DIMENSIONS SYMBOL A D E A1 L k A2 MIN. 0.70 2.90 2.90 0.00 0.20 MAX. 0.80 3.10 3.10 0.05 0.40
PACKAGE VARIATIONS
PKG. CODE T633-2 T833-2 T833-3 T1033-1 T1033MK-1 T1033-2 T1433-1
N 6 8 8 10 10 10 14 14
D2 1.500.10 1.500.10 1.500.10 1.500.10 1.500.10 1.500.10 1.700.10 1.700.10
E2 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10
e 0.95 BSC 0.65 BSC 0.65 BSC 0.50 BSC 0.50 BSC 0.50 BSC 0.40 BSC 0.40 BSC
JEDEC SPEC MO229 / WEEA MO229 / WEEC MO229 / WEEC MO229 / WEED-3 MO229 / WEED-3 MO229 / WEED-3 -------
b 0.400.05 0.300.05 0.300.05 0.250.05 0.250.05 0.250.05 0.200.05 0.200.05
[(N/2)-1] x e 1.90 REF 1.95 REF 1.95 REF 2.00 REF 2.00 REF 2.00 REF 2.40 REF 2.40 REF 2.40 REF
0.25 MIN. 0.20 REF.
12
_____________________________________________________________________________________ T1433-3F 14 1.700.10 2.300.10 0.40 BSC ---0.200.05
T1433-2
36V, Precision, Low-Noise, Wide-Band Amplifier
Package Information (continued)
For the latest package outline information and land patterns (footprints), go to www.maxim-ic.com/packages. Note that a "+", "#", or "-" in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status.
MAX9632
COMMON DIMENSIONS SYMBOL A D E A1 L k A2 MIN. 0.70 2.90 2.90 0.00 0.20 MAX. 0.80 3.10 3.10 0.05 0.40
PACKAGE VARIATIONS
PKG. CODE T633-2 T833-2 T833-3 T1033-1 T1033MK-1 T1033-2 T1433-1
N 6 8 8 10 10 10 14 14 14
D2 1.500.10 1.500.10 1.500.10 1.500.10 1.500.10 1.500.10 1.700.10 1.700.10 1.700.10
E2 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10 2.300.10
e 0.95 BSC 0.65 BSC 0.65 BSC 0.50 BSC 0.50 BSC 0.50 BSC 0.40 BSC 0.40 BSC 0.40 BSC
JEDEC SPEC MO229 / WEEA MO229 / WEEC MO229 / WEEC MO229 / WEED-3 MO229 / WEED-3 MO229 / WEED-3 ----------
b 0.400.05 0.300.05 0.300.05 0.250.05 0.250.05 0.250.05 0.200.05 0.200.05 0.200.05
[(N/2)-1] x e 1.90 REF 1.95 REF 1.95 REF 2.00 REF 2.00 REF 2.00 REF 2.40 REF 2.40 REF 2.40 REF
0.25 MIN. 0.20 REF.
T1433-2 T1433-3F
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13
36V, Precision, Low-Noise, Wide-Band Amplifier MAX9632
Revision History
REVISION NUMBER 0 1 REVISION DATE 10/10 4/11 Initial release Updated short-circuit current spec DESCRIPTION PAGES CHANGED -- 3
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
14
(c)
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