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MAX4122/3/6/7/9

Catalog Datasheet MFG & Type PDF Document Tags

DB-135

Abstract: AAAZ TRANSISTOR 5 PIN Voltage Range o Rail-to-Rail Output Voltage Swing o 5MHz Gain-Bandwidth Product (MAX4122/3/6/7/9) 25MHz , Stable with 500pF Capacitive Loads o Unity-Gain Stable (MAX4122/3/6/7/9) Stable at Gains 10V/V , -, IN2- - - 3, 5 3, 11 3, 5 IN1+, IN2+ - - - 6, 9 - SHDN1 , - 2 IN1+ 3 OUT1 1 8 VEE 4 7 VCC IN1- 2 6 OUT IN1+ 3 5 MAX4123 , SHDN1 6 9 SHDN2 N.C. 7 8 N.C. SO 14 12 IN4+ MAX4129 11 VEE 10 IN3+ IN2
Maxim Integrated Products
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DB-135 AAAZ TRANSISTOR 5 PIN aaaz op amp 725 MAX4124 MAX4124EUK MAX4122/4 MAX4122/3/6/7/9 MAX4124/5/8 MAX4123/5/7 MAX4123C/D MAX4123ESA

AAAZ TRANSISTOR 5 PIN

Abstract: aaaz Output Voltage Swing o 5MHz Gain-Bandwidth Product (MAX4122/3/6/7/9) 25MHz Gain-Bandwidth Product , Capacitive Loads o Unity-Gain Stable (MAX4122/3/6/7/9) Stable at Gains 10V/V (MAX4124/5/8) Ordering , 8 SO/µMAX MAX4129 MAX187 3 14 SO 14 SO 6 SERIAL INTERFACE 8 7 SCLK VREF , , 13 1, 7 OUT1, OUT2 - - 2, 6 2, 12 2, 6 IN1-, IN2- - - 3, 5 3, 11 3, 5 IN1+, IN2+ - - - 6, 9 - SHDN1, SHDN2 - - - -
Maxim Integrated Products
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MAX4126 MAX4123EUA MAX4125 MAX4128ESA MAX4128EUA MAX4129ESD MAX4123/

MAX4124EUK

Abstract: MAX4122 (MAX4122/3/6/7/9) 25MHz Gain-Bandwidth Product (MAX4124/5/8) 650µA Quiescent Current per Amplifier , Drive 250 Loads Stable with 500pF Capacitive Loads Unity-Gain Stable (MAX4122/3/6/7/9) Stable at , , 13 1, 7 OUT1, OUT2 - - 2, 6 2, 12 2, 6 IN1-, IN2- - - 3, 5 3, 11 3, 5 IN1+, IN2+ - - - 6, 9 - SHDN1, SHDN2 - - - - , IN+ 3 SOT23-5 N.C. 1 IN1- 2 IN1+ 3 OUT1 1 8 VEE 4 7 VCC IN1- 2 6 OUT
Maxim Integrated Products
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MAX4127/ MAX4128
Abstract: Gain-Bandwidth Product (MAX4122/3/6/7/9) 25MHz Gain-Bandwidth Product (MAX4124/5/8) o 650µA Quiescent Current , (MAX4122/3/6/7/9) Stable at Gains ≥ 10V/V (MAX4124/5/8) Orde ring I nform a t ion PART TEMP , Drive , Sunnyva le , CA 9 4 0 8 6 4 0 8 -7 3 7 -7 6 0 0 © 1997 Maxim Integrated Products Printed , , 6 IN1-, IN2- â'" â'" 3, 5 3, 11 3, 5 IN1+, IN2+ â'" â'" â'" 6, 9 , VEE 4 7 VCC IN1- 6 OUT IN1+ 3 5 MAX4123 MAX4125 SHDN N.C. IN1 Maxim Integrated Products
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marking AE 5pin

Abstract: MAX4124EUK Rail-to-Rail Output Voltage Swing 5MHz Gain-Bandwidth Product (MAX4122/3/6/7/9) 25MHz Gain-Bandwidth Product , Unity-Gain Stable (MAX4122/3/6/7/9) Stable at Gains > 10V/V (MAX4124/5/8) S i n g l e/ D u a l / Q u a d , MAX4122 MAX4124 1 2 3 4 5 - - - - - - - - - MAX4123 MAX4125 6 4 3 2 7 1, 5 8 - - - - - - - MAX4126 MAX4128 - 4 - - 8 - - 1. 7 2, 6 3, 5 - - - - NAME M AX4127 - 4 - - 14 5, 7, 8, 10 - 1, 13 2, 12 3, 11 6, 9 - - - MAX4129 - 11 - - 4 - - 1. 7 2, 6 3, 5 - 8, 14 9, 13 10, 12 OUT V
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OCR Scan
marking AE 5pin MAX4122-MAX4129 MAX4122/MAX4123/ MAX4126/MAX4127/MAX4129 MAX4124/ MAX4125/MAX4128 MAX4123/MAX4125/MAX4127
Abstract: Product (MAX4122/3/6/7/9) 25MHz Gain-Bandwidth Product (MAX4124/5/8) ♦ 650|xA Quiescent Current per , (MAX4122/3/6/7/9) Stable at Gains > 10V/V (MAX4124/5/8) Ordering In fo rm a tio n PART TEMP. RANGE , '" SHDN â'" â'" 1 ,7 1, 13 1 ,7 OUT1, OUT2 â'" â'" 2, 6 2, 12 2, 6 IN1 -, IN2- â'" â'" 3, 5 3, 11 3, 5 IN1 + , IN2+ â'" â'" â'" 6, 9 â , 8 6 4 0 8 -7 3 7 -7 6 0 0 © 1997 Maxim Integrated Products Printed USA / M / I X \JV\ is a -
OCR Scan
AX4122/M AX4124/ AX4123/M AX4125/M SDT23

OF IC 741 op-amp

Abstract: IC 741 OPAMP 3 of 7 Figure 5. Bias change in a rail-to-rail input stage for the MAX4122 op amp. Even though , CMOS. Page 2 of 7 Figure 3. A MOS rail-to-rail input stage. As with most engineering there are , and negative supply rails. Page 4 of 7 Figure 6. Input circuit which includes a ground in the , : www.maxim-ic.com/samples Page 6 of 7 Other questions and comments: www.maxim-ic.com/contact AN4428, AN 4428 , manufacturing tolerances of wheels, axles, tracks, and thermal expansion need to be Page 1 of 7 understood
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LMX321 MAX4036 MAX4091 MAX4162 MAX4220 MAX4475 OF IC 741 op-amp IC 741 OPAMP opamp 741 railroad of op-amp ic 741 datasheets of op-amp ic 741

OF IC 741 op-amp

Abstract: IC 741 OPAMP 3 of 7 Figure 5. Bias change in a rail-to-rail input stage for the MAX4122 op amp. Even though , CMOS. Page 2 of 7 Figure 3. A MOS rail-to-rail input stage. As with most engineering there are , and negative supply rails. Page 4 of 7 Figure 6. Input circuit which includes a ground in the , support: www.maxim-ic.com/support Page 6 of 7 For samples: www.maxim-ic.com/samples Other questions , manufacturing tolerances of wheels, axles, tracks, and thermal expansion need to be Page 1 of 7 understood
Maxim Integrated Products
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OF IC 741 op-amp comparator IC 741 OP-AMP IC 741 OPAMP used in power supply OF IC 741 opamp 741 OP Amp application 741 op-amp integrated MAX4493 APP4428

MPC6002

Abstract: mpc6042 OPERATIONAL AMPLIFIER COMPETITIVE CROSS REFERENCE GUIDE Competitor AD8515 AD8517/27 AD8541/42/44 AD8591/92/94 AD8631/32 AD8091/92 ADA4851-1 AD8029/30/40 SSM2211 National LMV710 LMV721 LMV710/- -/LPV358/-/LMV342/LMV344 -/LMV358/LMV324 LMC6041/-/LMC7101/-/- MAX4122 MAX4076/MAX4077 MAX4162/MAX4163/MAX4164 MAX4122/MAX4126 MAX4400/MAX4402/MAX4403 MAX4321 , MAX4350/MAX4351 MAX4452/MAX4453 MAX4412/MAX4413 -/MAX4391 MAX4390 MAX4380 MAX4122/MAX4126
Analog Devices
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MPC6002 mpc6042 LM4871 equivalent maxim cross reference Operational Amplifiers cross reference njm2107 cross reference MAX4122/MAX4126 MAX4321/MAX4480/MAX4482/MAX4483 MAX4322/MAX4326

MAX2740

Abstract: Surveying Equipment GND GND LNA_IN GND GND GND RFMIX_INGC VCC_ANA GND GND VCC_VCO 1 2 3 4 5 6 7 8 9 10 11 , 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 AGC GAIN SET /2 /8 /6 /6 , ) 3 Integrated GPS Receiver and Synthesizer MAX2740 Pin Description PIN 1, 2, 4, 5, 6, 10, 11, 14, 15, 21, 22, 23, 26, 29, 32, 37, 41, 42, 47, paddle 3 7 8 9 12 13 16 17 18 19 20 24 25 27 28 , IFMIX_OUT+ IFMIX_OUTVGA_IN+ VGA_INGND VGA_OUT+ VGA_OUTGND FGA_IN+ FGA_INGND FGA_OUT+ MAX2740 /2 /8 /6 /6
Maxim Integrated Products
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SAW GPS GLONASS filter

Abstract: SAW RESONATOR 1575Mhz _Applications 37 38 39 40 41 42 43 44 1 36 2 35 3 34 4 33 5 32 6 31 MAX2740 7 8 /2 9 10 30 /6 29 /6 /8 28 27 PFD , 34 4 33 5 32 6 31 7 AGC 36 2 30 8 GAIN SET MAX4122 /2 9 /6 /8 10 29 /6 28 27 PFD 11 26 12 25 24 23 22 21 20 , , 42, 47, paddle GND 3 LNA_IN 7 RFMIX_IN- Input to unused side of a differential
Maxim Integrated Products
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MAX2740ECM SAW GPS GLONASS filter SAW RESONATOR 1575Mhz 1575.42Mhz resonator gilbert cell differential pair gps glonass TQFP-EP

AN656

Abstract: APP656 and output voltage swing in its Electrical Characteristicstable (Figure 6). Large-signal voltage gain vs. output voltage and load graphs for these devices are shown in Figure 7. Figure 6. A proper , input bias current can change, both in sign and in magnitude. Figure 3 shows how to match impedances , well. Table 2 lists references suitable for use in low-voltage systems. Figure 3. Matching the , stage never truly reaches the supply rail. A MAX4122 with 100k load, for instance, swings to within
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MAX4165 MAX861 AN656 APP656 MAX4212

Nippon capacitors

Abstract: MAX4122 shown in Figure 7. Figure 6. A proper specification for large-signal voltage gain includes both the , /an656 Page 3 of 12 Figure 2. As the common-mode input voltage of a rail-to-rail input amplifier , magnitude. Figure 3 shows how to match impedances in the classic inverting and noninverting op-amp , systems. www.maxim-ic.com/an656 Page 4 of 12 Figure 3. Matching the resistance at the inverting , to the current source) plus VBE (due to the output transistor). www.maxim-ic.com/an656 Page 6 of
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Nippon capacitors 496k motorola op amp

MAX2740

Abstract: circuit schematic for ev 100 m mixer 8.2nH 3 C6 7pF L3 NO_LOAD 4 5 6 +3VA 7 C7 100pF JU4 R2 100k JU3 C8 , 2.74k R9 2.74k 5 MAX4122 R5 12.1k +3 - U2 2 4 L5 220nH JU7 C20 1000pF , 19-1670; Rev 0; 7/00 MAX2740 Evaluation Kit Features o Differential Baseband Outputs o +2.7V , 100 ±5% resistors (0402) 7 R5, R8 2 12.1k ±1% resistors (0402) 1 7pF ±0.1pF ceramic , DESCRIPTION R13-R18 6 2k ±1% resistors (0402) R19 1 453 ±1% resistor (0402) R20 1
Maxim Integrated Products
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MAX2740EVKIT TAJC106K016R circuit schematic for ev 100 m mixer 2LNA 15 pin vga pin out connections anzac mixers 8648C siemens c45 GRM36COG2R7B050A GRM36COG030B050A GRM36COG020B050A GRMX5R153K016A GRM36COG101J050A

LMC6482 equivalent

Abstract: LMC662 equivalent MAX473 MAX474 MAX475 MAX492 MAX494 MAX495 MAX4040 MAX4041 MAX4042 MAX4044 MAX4122 MAX4126
STMicroelectronics
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TS921 TS974 TS462 LMC6434 LMC6482 equivalent LMC662 equivalent LMC6032 equivalent LMC660 equivalent TS970 TS971 TS951 TS932 TS934 TS1852 TS1854

max71315

Abstract: 300MHz Differential Line Driver 15 6 5 V+ TLO THI 9 4 PGM2 PGM1 10 PGM3 3 12 PGM0 BATTCC R6 START 16 REF 7 , G1 7 2 MAX845 D1 D2 1 8 1 S1 IC2 MMDF3N03HD C2 0.1µF CR3 3 D2 6 , OUT IC2 6 RG2 8 IOUT 10µF MAX603 IC1 7 MAX472 VCC OUT 8 3 A similar idea appeared in the 12/95 issue of Electronic Engineering (UK). SET GND 2, 3, 6, 7 0.1µF , Corporation, 1986, p. 7. 3 depends also on parasitic inductance and capacitance associated with the test
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MAX525 MAX542 MAX545 MAX550B MAX1245 MAX961 max71315 300MHz Differential Line Driver MAX2611 mbrs0530l MAX533 stepup transformer 24V to 2KV MAX113/114 MAX533/534 MAX549B

anzac mixers

Abstract: circuit schematic for ev 100 m mixer 5 6 +3VA JU4 R2 100k JU3 C8 0.015µF C7 100pF +3V_AN 9 10 11 +3V_VCO VCC_ANA GND_ANA GND 7 8 LNA_IN , , R8 R6, R7, R9, R10 R11, R12 R13-R18 R19 R20 L1, L2, L5 L8, L9 L3 L10 L11, L12 1 1 2 2 4 2 6 1 1 3 2 1 1 2 13 7 C6 C9, C12, C41, C45, C46, C47 1 6 , 19-1670; Rev 0; 7/00 MAX2740 Evaluation Kit General Description The MAX2740 evaluation kit (EV , least 100mA at +2.7V to +3.3V HP 8561E M/A Com Anzac 96341 For external control of VGA functions 7 2
Maxim Integrated Products
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HP 8648c siemens c35 terminal GRM36X7R102K050A GRM36COG120J050A GRM36COG070B050A OUTC22

op27

Abstract: CL7650 ±2.5 to ±16.5 +3 to +36 +3 to +36 +2.7 to +6 +2.2 to +36, ±1.1 to ±18 +1.6 to +36, ±0.8 to ±18 +2.7 to +6 +2 7 to +6,5 +2.7 to +6.5 +2.7 to +6.5 +2.7 to +6.5 +2.7 to +6.5 +2.7 to +6.5 +2.7 to +6.5 f2.7 to +6.5 +2.7 to +10 +2.7 to +10 +2.7 to +6.5 +2.7 to +6.5 +2.7 to +6.5 +3 to +32 +2 7 to +5 5 +2.7 to +5.5 , 0.75 0.75 0.03 to 0.10 35 0.1 150 6 3 60 150 150 150 150 150 150 150 150 100pA 10GpA 150 150 150 0.75 , 5 to 6 2 to 12 40 to 80 40 to 80 15 to 25 ±5 ±5 ±3 to ±18 ±15 +4 to +36. ± 2 to ±18 +2.2 to +36.
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OCR Scan
op27 CL7650 AX410/12/14 MAX400 MAX427/437 MXL1001 AX409/417/419 MAX478/479

Wien Bridge Oscillator opamp

Abstract: wien bridge oscillator forward To find a transfer function, we know Combining Equation 3 and Equation 5 into Equation 4 , . Boldly going forth with the above supposition, a Wien bridge oscillator can now be analyzed. Figure 3 , 3. Firstly, from Equation 3 the voltage at the inverting pin is It is worth noting that if two , of VOUT to V+ (hence V-) has to be 3. Anything less than 3 and the oscillation will decay. Anything greater than 3 and the output will saturate. This dictates the ratio of Gf to Gi to maintain oscillation
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AN1939 APP1939 Wien Bridge Oscillator opamp wien bridge oscillator application of NON INVERTING AMPLIFIER wien bridge

Wien Bridge Oscillator

Abstract: "Current to Voltage Converter" inverting node are just as straight forward To find a transfer function, we know Combining Equation 3 , oscillator can now be analyzed. Figure 3 shows the generic configuration of this circuit. Again, to keep the , and use admittances. www.maxim-ic.com/an1939 Page 3 of 5 Figure 3. Firstly, from Equation 3 , , there is no phase shift). Second, at this frequency the ratio of Vout to V+ (hence V-) has to be 3. Anything less than 3 and the oscillation will decay. Anything greater than 3 and the output will saturate
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Current to voltage converter Wien Bridge Oscillator application A320 kirchoff law application of Wien Bridge Oscillator
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