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Part: EL2411CN
Category:
Multimedia
-> Video
-> Amplifiers
-> Preamp/Amp
Description: Low Cost, Dual, Triple And Quad Video op Amp
Company: Elantec Semiconductor, Inc. (acquired by Intersil)
Datasheet: Download EL2411CN datasheet File size : 7 kB
Request For quote: Find where to buy EL2411CN
Datasheet text preview:
EL2210C/11C, EL2310C/11C, EL2410C/11C
EL2210C/11C, EL2310C/11C, EL2410C/11C
Low Cost, Dual, Triple and Quad Video Op Amps
Features
· Stable at gain of 2 and 100MHz gain_bandwidth product (EL2211C, EL2311C, & EL2411C) · Stable at gain of 1 and 50MHz gain_bandwidth product (EL2210C, EL2310C, & EL2410C) · 130V/µs slew rate · Drives 150 load to video levels · Inputs and outputs operate at negative supply rail · ±5V or +10V supplies · -60dB isolation at 4.2MHz
General Description
This family of dual, triple, and quad operational amplifiers built using Elantec's Complementary Bipolar process offers unprecedented high frequency performance at a very low cost. They are suitable for any application such as consumer video, where traditional DC perform a n c e specifications are of secondary importance to the high f r e q u e n c y specifications. On ±5V supplies at a gain of +1 the EL2210C, EL2310C, and EL2410C will drive a 150 load to +2V,---1V with a bandwidth of 50MHz and a channel-to-channel isolation of 60dB or more. At a gain of +2, the EL2211C, EL2311C, and EL2411C will drive a 150 load to +2V, -1V with a bandwidth of 100MHz with the same channel-to-channel isolation. All four achieve 0.1dB bandwidth at 5MHz. The power supply operating range is fixed at ±5V or +10/0V. In single supply operation the inputs and outputs will operate to ground. Each amplifier draws only 7mA of supply current.
Applications
· · · · Consumer video amplifiers Active filters/integrators Cost-sensitive applications Single supply amplifiers
Connection Diagrams
OUT 1 8 V+ 7 OUT2 6 IN25 IN2+ EL2210C/EL2211C
Ordering Information
Part No EL2210CN EL2210CS EL2210CS-T7 EL2210CS-T13 EL2211CN EL2211CS EL2310CN EL2310CS EL2311CN EL2311CS EL2410CN EL2410CS EL2410CS-T7 EL2410CS-T13 EL2411CN EL2411CS Package 8-Pin PDIP 8-Pin SO 8-Pin SO 8-Pin SO 8-Pin PDIP 8-Pin SO 8-Pin PDIP 8-Pin SO 8-Pin PDIP 8-Pin SO 14-Pin PDIP 14-Pin SO 14-Pin SO 14-Pin SO 14-Pin PDIP 14-Pin SO Tape & Reel 7" 13" 7" 13" Outline # MDP0031 MDP0027 MDP0027 MDP0027 MDP0031 MDP0027 MDP0031 MDP0027 MDP0031 MDP0027 MDP0031 MDP0027 MDP0027 MDP0027 MDP0031 MDP0027
IN1- 2 IN1+ 3 V- 4
-
+ + -
NC 1 NC 2 NC 3 VS+ 4 IN1+ 5 IN1- 6 OUT1 7 EL2210C/EL2211C + + -
14 OUT2 13 IN212 IN2+ 11 VS10 IN3+ 9 IN38 OUT3
OUT1 1 IN1- 2 IN1+ 3 V+ 4 IN2+ 5 IN2- 6 OUT2 7 EL2210C/EL2211C + + + + -
14 OUT4 13 IN412 IN4+ 11 V10 IN3+ 9 IN38 OUT3
+
-
August 6, 2001
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.
© 2001 Elantec Semiconductor, Inc.
EL2210C/11C, EL2310C/11C, EL2410C/11C
EL2210C/11C, EL2310C/11C, EL2410C/11C
Low Cost, Dual, Triple and Quad Video Op Amps
Absolute Maximum Ratings (T
Total Voltage Supply Input Voltage Differential Input Voltage Peak Output Current
A
= 25°C)
18V ±VS 6V 75mA (per amplifier)
Power Dissipation Storage Temperature Range Operating Temperature Range Die Junction Temperature
See Curves -65°C to +150°C -40°C to +85°C +150°C
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.
EL2210C, EL2310C, EL2410C - DC Electrical Characteristics
VS = ±5V, RL = 1k, TA = 25°C unless otherwise noted. Parameter VO S Description Input Offset Voltage EL2310C only EL2311C only TCVOS IB IOS TCIOS AV O L PSRR CMRR CMIR VO U T Average Offset Voltage Drift [1] Input Bias Current Input Offset Current Average Offset Current Drift [1] Open-Loop Gain Power Supply Rejection Common Mode Rejection Common Mode Input Range Output Voltage Swing VOUT = ±2V, RL = 1k VOUT = +2V/0V, RL = 150 VS = ±4.5V to ±5.5V VCM = ±2.4V, VOUT = 0V VS = ±5V RL = RF= 1k RL to GND RL = RF = 1k +150¾ to GND RL = RF = 1k RL to VEE IS C IS RIN CIN ROUT PSOR Output Short Circuit Current Supply Current Input Resistance Input Capacitance Output Resistance Power Supply Operating Range Dual Supply Single Supply 1. A heat-sink is required to keep junction temperature below absolute maximum when an output is shorted ±4.5 9 Output to GND (Note 1) No Load (per channel) Differential Common Mode AV = +1 @ 10MHz -2.5 -0.45 -4.95 75 5.5 125 6.8 150 1.5 1 0.150 ±6.5 13 10 160 160 50 60 -15 Conditions Min Typ 10 10 5 -25 -7 0.5 -7 250 250 60 80 -5/+3 -3, 3 -0.6, 2.9 2.7 2.5 3 mA mA k M pF V dB dB V V -3 1.5 Max 20 25 25 Unit mV mV mV µV/°C µA µA nA/°C V/V
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EL2210C/11C, EL2310C/11C, EL2410C/11C
EL2210C/11C, EL2310C/11C, EL2410C/11C
Low Cost, Dual, Triple and Quad Video Op Amps
EL2211C, EL2311C, EL2411C - DC Electrical Characteristics
VS = ±5V, RL = 1k, AV = +2, TA = 25°C unless otherwise noted. Parameter VO S TCVOS IB IOS TCIOS AV O L PSRR CMRR CMIR VO U T Description Input Offset Voltage Average Offset Voltage Drift [1] Input Bias Current Input Offset Current Average Offset Current Drift [1] Open-Loop Gain Power Supply Rejection Common Mode Rejection Common Mode Input Range Output Voltage Swing VOUT = ±2V, RL = 1k VOUT = +2V/0V, RL = 150 VS = ±4.5V to ±5.5V VCM = ±2.5V, VOUT = 0V VS = ±5V RL = RF= 1k RL to GND RL = RF = 1k +150¾ to GND RL = RF = 1k RL to VEE IS C IS RIN CIN ROUT PSOR Output Short Circuit Current Supply Current Input Resistance Input Capacitance Output Resistance Power Supply Operating Range Dual Supply Single Supply 1. A heat-sink is required to keep junction temperature below absolute maximum when an output is shorted ±4.5 9 Output to GND (Note 1) No Load Differential Common Mode AV = +1 @ 10MHz 2.5 -0.45 -4.95 75 5.5 125 6.8 150 1.5 1 0.150 ±6.5 13 10 250 250 55 70 -15 Conditions Min Typ 5 -25 -7 0.5 -7 380 380 68 90 -5/+3 -3.5, 3.3 -0.6, 2.9 2.7 2.5 3 mA mA k M pF V dB dB V V -3 1.5 Max 12 Unit mV µV/°C µA µA nA/°C V/V
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EL2210C/11C, EL2310C/11C, EL2410C/11C
EL2210C/11C, EL2310C/11C, EL2410C/11C
Low Cost, Dual, Triple and Quad Video Op Amps
EL2210C, EL2310C, EL2410C - Closed-Loop AC Characteristics
VS = ±5V, AC Test Figure 1, TA = 25°C unless otherwise noted. Parameter BW BW GBWP PM SR FBWP tr, tf OS tPD tS dG dP eN iN CS Description -3dB Bandwidth (VOUT = 0.4VPP) ±0.1 dB Bandwidth (VOUT = 0.4VPP) Gain Bandwidth Product Phase Margin Slew Rate Full Power Bandwidth [1] Rise Time, Fall Time Overshoot Propagation Delay Settling to 0.1% (AV = 1) Differential Gain [2] Differential Phase
[2]
Conditions AV = +1 AV = +1
Min
Typ 110 12 55 60
Max
Unit MHz MHz MHz °C V/µs MHz ns % ns ns % °C nV/Hz pA/Hz dB
85 8 0.1V Step 0.1V Step VS = ±5V, 2V Step NTSC/PAL NTSC/PAL 10kHz 10kHz P = 5MHz
130 11 2 15 3.5 80 0.1 0.2 15 1.5 55
Input Noise Voltage Input Noise Current Channel Separation
1. For VS = ±5V, VOUT = 4 VPP. Full power bandwidth is based on slew rate measurement using: FPBW = SR/(2pi * Vpeak) 2. Video performance measured at VS = ±5V, AV = +2 with 2 times normal video level across RL = 150
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EL2210C/11C, EL2310C/11C, EL2410C/11C
EL2210C/11C, EL2310C/11C, EL2410C/11C
Low Cost, Dual, Triple and Quad Video Op Amps
EL2211C, EL2311C, EL2411C - Closed-Loop AC Characteristics
VS = ±5V, AC Test Figure 1, TA = 25°C unless otherwise noted. Parameter BW BW GBWP PM SR FBWP tr, tf OS tPD tS dG dP eN iN CS Description -3dB Bandwidth (VOUT = 0.4 VPP) ±0.1dB Bandwidth (VOUT = 0.4 VPP) Gain Bandwidth Product Phase Margin Slew Rate Full Power Bandwidth [1] Rise Time, Fall Time Overshoot Propagation Delay Settling to 0.1% (AV = 1) Differential Gain [2] Differential Phase [2] Input Noise Voltage Input Noise Current Channel Separation VS = ±5V, 2V Step NTSC/PAL NTSC/PAL 10kHz 10kHz P = 5MHz 0.1V Step 0.1V Step 100 8 AV = +2 AV = +2 Conditions Min Typ 100 8 130 60 140 11 2.5 6 3.5 80 0.04 0.15 15 1.5 55 Max Unit MHz MHz MHz °C V/µs MHz ns % ns ns % °C nV/Hz pA/Hz dB
1. For VS = ±5V, VOUT = 4 VPP. Full power bandwidth is based on slew rate measurement using: FPBW = SR/(2pi * Vpeak) 2. Video performance measured at VS = ±5V, AV = +2 with 2 times normal video level across RL = 150.
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