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| EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Features * Gain selectable (+1, -1, +2) * 400MHz -3dB Bandwidth (AV = 1, 2) * 9mA supply current (per amplifier) * Single and dual supply operation, from 5V to 10V * Power-down * Available in 16-pin QSOP package * Single (EL5196C) available * 200MHz, 3mA product available (EL5197C, EL5397C) General Description The EL5396C is a triple channel, fixed gain amplifier with a bandwidth of 400MHz, making these amplifiers ideal for today's high speed video and monitor applications. The EL5396C features internal gain setting resistors and can be configured in a gain of +1, -1 or +2. The same bandwidth is seen in both gain-of-1 and gain-of-2 applications. The EL5396C can be run from a single or dual supply voltage of 5V to 10V and consumes just 9mA of supply current per channel. Each channel of the EL5396C has a disable. Upon being disabled, the outputs are tri-stated and the power supply current reduces to less than 150A per amplifier. Allowing the CE pin to float, or applying a low logic level will enable the amplifier. For applications where board space is critical, the EL5396C is offered in the 16-pin QSOP package, as well as a 16-pin SO. The EL5396C is specified for operation over the full industrial temperature range of ---40C to +85C. Applications * * * * * * Video Amplifiers Cable Drivers RGB Amplifiers Test Equipment Instrumentation Current to Voltage Converters Pin Configurations Ordering Information Part No EL5396CS EL5396CS-T7 EL5396CS-T13 EL5396CU EL5396CU-T13 Package 16-Pin SO 16-Pin SO 16-Pin SO 16-Pin QSOP 16-Pin QSOP Tape & Reel 7" 13" 13" Outline # MDP0027 MDP0027 MDP0027 MDP0040 MDP0040 16-Pin SO & QSOP INA+ 1 CEA 2 VS- 3 CEB 4 INB+ 5 NC 6 CEC 7 INC+ 8 EL5396CS, EL5396CU + + + 16 INA15 OUTA 14 VS+ 13 OUTB 12 INB11 NC September 19, 2001 10 OUTC 9 INC- Note: All information contained in this data sheet has been carefully checked and is believed to be accurate as of the date of publication; however, this data sheet cannot be a "controlled document". Current revisions, if any, to these specifications are maintained at the factory and are available upon your request. We recommend checking the revision level before finalization of your design documentation. (c) 2001 Elantec Semiconductor, Inc. EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Absolute Maximum Ratings (T A = 25C) Values beyond absolute maximum ratings can cause the device to be prematurely damaged. Absolute maximum ratings are stress ratings only and functional device operation is not implied. Supply Voltage between VS+ and VS11V Maximum Continuous Output Current 50mA Operating Junction Temperature 125C Power Dissipation Pin Voltages Storage Temperature Operating Temperature Lead Temperature See Curves VS- - 0.5V to VS+ +0.5V -65C to +150C -40C to +85C 260C Important Note: All parameters having Min/Max specifications are guaranteed. Typ values are for information purposes only. Unless otherwise noted, all tests are at the specified temperature and are pulsed tests, therefore: TJ = TC = TA. Electrical Characteristics VS+ = +5V, VS- = -5V, RL = 150, TA = 25C unless otherwise specified. Parameter AC Performance BW BW1 SR ts CS en inin+ dG dP VOS TCVOS AE RF, RG CMIR +IIN -IIN RIN CIN VO IOUT tEN tDIS IIHCE IILCE VIHCE VILCE -3dB Bandwidth 0.1dB Bandwidth Slew Rate 0.1% Settling Time Channel Separation Input Voltage Noise IN- input current noise IN+ input current noise Differential Gain Error Differential Phase Error Offset Voltage Input Offset Voltage Temperature Coefficient Gain Error Internal RF and RG Common Mode Input Range + Input Current - Input Current Input Resistance Input Capacitance Output Voltage Swing Output Current Enable Time Disable Time CE pin Input High Current CE pin Input Low Current CE pin Input High Voltage for Power Down CE pin Input Low Voltage for Power Up CE = VS+ CE = VSVS+ -0.5 VS+ -3 RL = 150 to GND RL = 1K to GND RL = 10 to GND Enable (selected packages only) 40 TBD 0.8 0 6 -0.1 ns ns A A V V 3.4V 3.8V 95 Measured from TMIN to TMAX VO = -3V to +3V -2 320 3V -120 -40 [1] [1] Description AV = +1 AV = +2 Conditions Min Typ 400 400 35 Max Unit MHz MHz MHz V/s ns dB nV/Hz pA/Hz pA/Hz % VO = -2.5V to +2.5V, AV = +2 VOUT = -2.5V to +2.5V, AV = -1 f = 5MHz TBD -2600 9 68 3.8 25 55 AV = +2 AV = +2 -15 0.035 0.04 1 5 1.3 400 3.3V 40 4 27 0.5 3.7V 4.0V 120 120 40 2 480 15 DC Performance mV V/C % V A A k pF V V mA Input Characteristics Output Characteristics 2 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Electrical Characteristics VS+ = +5V, VS- = -5V, RL = 150, TA = 25C unless otherwise specified. Parameter Supply IsON IsOFF PSRR -IPSR Supply Current - Enabled (per amplifier) Supply Current - Disabled (per amplifier) Power Supply Rejection Ratio - Input Current Power Supply Rejection No Load, VIN = 0V, CE = -5V No Load, VIN = 0V, CE = +4.5V DC, VS = 4.75V to 5.25V DC, VS = 4.75V to 5.25V 55 -2 8 9 95 75 2 10.5 130 mA A dB A/V Description Conditions Min Typ Max Unit 1. Standard NTSC test, AC signal amplitude = 286mVP-P, f = 3.58MHz 3 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves Non-Inverting Frequency Response (Gain) 6 AV=1 Normalized Magnitude (dB) 2 AV=2 Phase () -2 AV=5 -6 AV=10 -10 -14 1M RF=750 RL=150 10M 100M Frequency (Hz) Inverting Frequency Response (Gain) 6 2 -2 AV=-3 -6 -10 -14 1M AV=-1 AV=-2 90 AV=-1 0 -90 -180 -270 -360 1M 1G -270 -360 1M RF=750 RL=150 10M 100M Frequency (Hz) Inverting Frequency Response (Phase) 1G -90 -180 AV=5 AV=10 0 AV=2 90 AV=1 Non-Inverting Frequency Response (Phase) Normalized Magnitude (dB) Phase () AV=-2 AV=-3 RF=500 RL=150 10M 100M Frequency (Hz) Frequency Response for Various CIN1G RF=500 RL=150 10M 100M Frequency (Hz) Frequency Response for Various R L 1G 10 6 2 -2 -6 -10 1M AV=2 RF=500 RL=150 10M 100M Frequency (Hz) 1G 0pF added 2pF added 1pF added 6 2 -2 -6 -10 -14 1M RL=100 RL=150 Normalized Magnitude (dB) Normalized Magnitude (dB) RL=500 AV=2 RF=500 10M 100M Frequency (Hz) 1G 4 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves Frequency Response for Various CL 14 10 6 2 -2 -6 1M 8pF 0pF 10M 100M Frequency (Hz) Group Delay vs Frequency 3.5 3 2.5 Delay (ns) 2 1.5 1 0.5 0 1M 10M 100M Frequency (Hz) Transimpedance (ROL) vs Frequency 10M Phase 1M 100k -180 10k Gain 1k -360 100 1k 10k 100k 1M 10M Frequency (Hz) 100 1G -80 10k 100k 1M 10M Frequency (Hz) 100M 1G -270 PSRR/CMRR (dB) -90 Magnitude () Phase () 0 0 -20 PSRR-40 -60 CMRR PSRR+ 20 1G AV=1 RF=750 Normalized Magnitude (dB) AV=2 RF=500 6 2 -2 -6 -10 -14 1M AV=2 RF=500 RL=150 10M 100M Frequency (Hz) PSRR and CMRR vs Frequency 1G 1G -14 1M AV=2 RL=150 RF=RG=500 33pF Normalized Magnitude (dB) 2 620 -2 750 -6 -10 AV=2 RG=RF RL=150 10M 100M Frequency (Hz) Frequency Response for Various Common-mode Input Voltages VCM=3V VCM=0V 1G 1.2k 6 340 475 Frequency Response for Various R F Normalized Magnitude (dB) 22pF 15pF VCM=-3V 5 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves -3dB Bandwidth vs Supply Voltage for Non-inverting Gains 400 350 -3dB Bandwidth (MHz) 300 250 200 150 100 50 0 5 6 7 8 AV=5 AV=10 9 10 0 5 AV=2 RF=750 RL=150 AV=1 -3dB Bandwidth (MHz) 200 150 100 50 AV=-1 250 -3dB Bandwidth vs Supply Voltage for Inverting Gains AV=-2 AV=-5 RF=500 RL=150 6 7 8 9 10 Total Supply Voltage (V) Peaking vs Supply Voltage for Non-inverting Gains 4 3.5 3 Peaking (dB) Peaking (dB) 2.5 2 1.5 1 0.5 0 5 6 AV=2 AV=10 7 8 9 10 AV=1 RF=750 RL=150 2.5 2 1.5 1 0.5 0 5 Total Supply Voltage (V) Peaking vs Supply Voltage for Inverting Gains RF=500 RL=150 AV=-1 AV=-2 6 7 8 9 10 Total Supply Voltage (V) Non-inverting Frequency Response (Gain) 6 2 -2 -6 -10 -14 1M AV=5 AV=10 RF=750 RL=150 10M 100M Frequency (Hz) 1G AV=1 AV=2 90 Total Supply Voltage (V) Non-inverting Frequency Response (Phase) AV=1 0 -90 AV=5 -180 AV=10 -270 -360 1M RF=750 RL=150 10M 100M Frequency (Hz) AV=2 Normalized Magnitude (dB) Phase () 1G 6 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves Inverting Frequency Response (Gain) 6 AV=-1 Normalized Magnitude (dB) 2 AV=-2 Phase () -2 AV=-5 -6 -10 -14 1M -90 AV=-5 -180 -270 -360 1M 0 90 AV=-1 AV=-2 Inverting Frequency Response (Phase) RF=500 RL=150 10M 100M Frequency (Hz) -3dB Bandwidth vs Temperature for Non-inverting Gains 1G RF=500 RL=150 10M 100M Frequency (Hz) -3dB Bandwidth vs Temperature for Inverting Gains 1G 500 400 -3dB Bandwidth (MHz) 300 200 100 0 -40 AV=2 AV=5 AV=10 10 60 AV=1 RF=750 RL=150 -3dB Bandwidth (MHz) 250 200 150 100 50 0 -40 AV=-1 AV=-2 AV=-5 RF=500 RL=150 10 60 110 160 110 160 Ambient Temperature (C) Peaking vs Temperature 2.5 RL=150 2 1.5 Peaking (dB) 1 0.5 0 -0.5 -40 AV=-1 Voltage Noise (nV/Hz) , Current Noise (pA/Hz) AV=1 100 in10 en 1000 Ambient Temperature (C) Voltage and Current Noise vs Frequency in+ 10 60 110 160 1 100 1000 Ambient Temperature (C) 10k 100k Frequency () 1M 10M 7 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves Closed Loop Output Impedance vs Frequency 100 10 Output Impedance () 1 0.1 0.01 0.001 100 Supply Current (mA) 10 8 6 4 2 0 1k 10k 100k 1M 10M 100M 1G 0 2 4 Frequency (Hz) 6 8 Supply Voltage (V) 10 12 Supply Current vs Supply Voltage 2nd and 3rd Harmonic Distortion vs Frequency -20 -30 Harmonic Distortion (dBc) -40 -50 -60 -70 -80 -90 1 10 Frequency (MHz) 100 3rd Order Distortion AV=+2 VOUT=2VP-P RL=100 2nd Order Distortion 25 20 Input Power Intercept (dBm) 15 10 5 0 -5 Two-tone 3rd Order Input Referred Intermodulation Intercept (IIP3) AV=+2 RL=150 AV=+2 RL=100 100 Frequency (MHz) Differential Gain/Phase vs DC Input Voltage at 3.58MHz AV=1 RF=750 RL=500 -10 10 0.03 0.02 0.01 dG (%) or dP () 0 -0.01 -0.02 -0.03 -0.04 Differential Gain/Phase vs DC Input Voltage at 3.58MHz AV=2 RF=RG=500 RL=150 dP 0.04 0.03 0.02 dG (%) or dP () dG 0.01 0 -0.01 -0.02 -0.03 dP dG -0.05 -1 -0.5 0 DC Input Voltage 0.5 1 -0.04 -1 -0.5 0 DC Input Voltage 0.5 1 8 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves Output Voltage Swing vs Frequency THD<1% RL=500 Output Voltage Swing (VPP) Output Voltage Swing (VPP) 8 6 4 2 AV=2 0 1 10 Frequency (MHz) 100 0 1 RL=150 8 6 RL=150 4 2 AV=2 10 Frequency (MHz) 100 RL=500 Output Voltage Swing vs Frequency THD<0.1% 10 10 Small Signal Step Response VS=5V RL=150 AV=2 RF=RG=500 Large Signal Step Response VS=5V RL=150 AV=2 RF=RG=500 200mV/div 1V/div 10ns/div 10ns/div Settling Time vs Settling Accuracy 25 20 Settling Time (ns) 15 10 5 0 0.01 AV=2 RF=RG=500 RL=150 VSTEP=5VP-P output RoI (k) 625 Transimpedance (RoI) vs Temperature 600 575 550 0.1 Settling Accuracy (%) 1 525 -40 10 60 Die Temperature (C) 110 160 9 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves PSRR and CMRR vs Temperature 90 80 70 60 50 40 30 20 10 -40 10 60 Die Temperature (C) Offset Voltage vs Temperature 2 60 40 1 Input Current (A) 20 IB0 -20 -40 -2 -40 -60 -40 IB+ VOS (mV) 110 160 -0.5 -40 10 60 Die Temperature (C) Input Current vs Temperature 110 160 CMRR ICMR/IPSR (A/V) PSRR/CMRR (dB) PSRR 2 1.5 1 IPSR 0.5 0 ICMRICMR and IPSR vs Temperature ICMR+ 0 -1 10 60 Die Temperature (C) 110 160 10 60 Temperature (C) 110 160 Positive Input Resistance vs Temperature 60 50 40 RIN+ (k) 30 20 10 0 -40 Supply Current (mA) 5 4 3 2 1 Supply Current vs Temperature 10 60 Temperature (C) 110 160 0 -40 10 60 Temperature (C) 110 160 10 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Typical Performance Curves Positive Output Swing vs Temperature for Various Loads 4.2 4.1 4 VOUT (V) 3.9 3.8 3.7 3.6 3.5 -40 10 60 Temperature (C) Output Current vs Temperature 130 4000 110 160 150 1k -3.5 -3.6 -3.7 VOUT (V) -3.8 -3.9 -4 -4.1 -4.2 -40 10 60 Temperature (C) Slew Rate vs Temperature 110 160 1k 150 Negative Output Swing vs Temperature for Various Loads Sink Slew Rate (V/S) 125 IOUT (mA) 3500 120 Source 3000 AV=2 RF=RG=500 RL=150 115 -40 10 60 Die Temperature (C) 110 160 2500 -40 10 60 Die Temperature (C) 110 160 Channel-to-Channel Isolation vs Frequency 0 -20 -40 -60 -80 -100 100k Power Dissipation (W) 1 0.9 0.8 0.7 Package Power Dissipation vs Ambient Temp. JEDEC JESD51-3 Low Effective Thermal Conductivity Test Board 909mW 11 Gain (dB) 0.6 633mW 0.5 0.4 0.3 0.2 0.1 0 SO 16 0 C/ W QS OP 16 15 8 C/W 1M 10M Frequency (Hz) 100M 400M 0 25 50 75 100 125 150 Ambient Temperature (C) 11 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier Pin Descriptions EL5396C 16-Pin SO & 16Pin QSOP 1 Pin Name INA+ Function Non-inverting input, Channel A Equivalent Circuit IN+ RG RF IN- Circuit1 2 CEA Amplifier A enable CE Circuit 2 3 4 5 6 7 8 9 10 VSCEB INB+ NC CEC INC+ INCOUTC Negative supply Amplifier B enable Non-inverting input, Channel B Not connected Amplifier C enable Non-inverting input, Channel C Inverting input, Channel C Output, Channel C (Reference Circuit 2) (Reference Circuit 1) (Reference Circuit 1) (Reference Circuit 2) (Reference Circuit 1) OUT RF Circuit 3 11 12 13 14 15 16 NC INBOUTB VS+ OUTA INA- Not connected Inverting input, Channel B Output, Channel B Positive supply Output, Channel A Inverting input, Channel A (Reference Circuit 3) (Reference Circuit 1) (Reference Circuit 1) (Reference Circuit 3) 12 EL5396C - Preliminary EL5396C - Preliminary Triple 400MHz Fixed Gain Amplifier General Disclaimer Specifications contained in this data sheet are in effect as of the publication date shown. Elantec, Inc. reserves the right to make changes in the circuitry or specifications contained herein at any time without notice. Elantec, Inc. assumes no responsibility for the use of any circuits described herein and makes no representations that they are free from patent infringement. WARNING - Life Support Policy September 19, 2001 Elantec Semiconductor, Inc. 675 Trade Zone Blvd. Milpitas, CA 95035 Telephone: (408) 945-1323 (888) ELANTEC Fax: (408) 945-9305 European Office: +44-118-977-6020 Japan Technical Center: +81-45-682-5820 13 Elantec, Inc. products are not authorized for and should not be used within Life Support Systems without the specific written consent of Elantec, Inc. Life Support systems are equipment intended to support or sustain life and whose failure to perform when properly used in accordance with instructions provided can be reasonably expected to result in significant personal injury or death. Users contemplating application of Elantec, Inc. Products in Life Support Systems are requested to contact Elantec, Inc. factory headquarters to establish suitable terms & conditions for these applications. Elantec, Inc.'s warranty is limited to replacement of defective components and does not cover injury to persons or property or other consequential damages. Printed in U.S.A. |
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