MAX4310 Maxim, MAX4310 Datasheet

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MAX4310

Manufacturer Part Number
MAX4310
Description
The MAX4310–MAX4315 single-supply mux-amps combine high-speed operation, low-glitch switching, and excellent video specifications
Manufacturer
Maxim
Datasheet
1.MAX4310.pdf (18 pages)

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The MAX4310–MAX4315 single-supply mux-amps com-
bine high-speed operation, low-glitch switching, and
excellent video specifications. The six products in this
family are differentiated by the number of multiplexer
inputs and the gain configuration. The MAX4310/
MAX4311/MAX4312 integrate 2-/4-/8-channel multiplex-
ers, respectively, with an adjustable gain amplifier opti-
mized for unity-gain stability. The MAX4313/MAX4314/
MAX4315 integrate 2-/4-/8-channel multiplexers, respec-
tively, with a +2V/V fixed-gain amplifier. All devices have
40ns channel switching time and low 10mVp-p switching
transients, making them ideal for video-switching applica-
tions. They operate from a single +4V to +10.5V supply,
or from dual supplies of ±2V to ±5.25V, and they feature
rail-to-rail outputs and an input common-mode voltage
range that extends to the negative supply rail.
The MAX4310/MAX4311/MAX4312 have a -3dB band-
width of 280MHz/345MHz/265MHz and up to a 460V/µs
slew rate. The MAX4313/MAX4314/MAX4315, with
150MHz/127MHz/97MHz -3dB bandwidths up to a
540V/µs slew rate, and a fixed gain of +2V/V, are ideally
suited for driving back-terminated cables. Quiescent sup-
ply current is as low as 6.1mA, while low-power shutdown
mode reduces supply current to as low as 560µA and
places the outputs in a high-impedance state. The
MAX4310–MAX4315’s internal amplifiers maintain an
open-loop output impedance of only 8Ω over the full out-
put voltage range, minimizing the gain error and band-
width changes under loads typical of most rail-to-rail
amplifiers. With differential gain and phase errors of
0.06% and 0.08°, respectively, these devices are ideal for
broadcast video applications.
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.
19-1379; Rev 3; 3/08
________________________Applications
Video Signal Multiplexing
Video Crosspoint Switching
Flash ADC Input Buffers
75Ω Video Cable Drivers
High-Speed Signal Processing
MAX4310
MAX4311
MAX4312
MAX4313
MAX4314
MAX4315
PART
Multichannel, Video Multiplexer-Amplifiers
________________________________________________________________ Maxim Integrated Products
High-Speed, Low-Power, Single-Supply
General Description
NO. OF INPUT
CHANNELS
2
4
8
2
4
8
Broadcast Video
Medical Imaging
Multimedia Products
AMPLIFIER GAIN
(V/V)
≥ + 1
≥ + 1
≥ + 1
+2
+2
+2
o Single-Supply Operation Down to +4V
o 345MHz -3dB Bandwidth (MAX4311)
o 540V/µs Slew Rate (MAX4313)
o Low 6.1mA Quiescent Supply Current
o 40ns Channel Switching Time
o Ultra-Low 10mVp-p Switching Transient
o 0.06%/0.08° Differential Gain/Phase Error
o Rail-to-Rail Outputs: Drives 150Ω to within
o Input Common-Mode Range Includes
o Low-Power Shutdown Mode
o Available in Space-Saving 8-Pin µMAX
Pin Configurations and Typical Operating Circuit appear at
end of data sheet.
µMax is a registered trademark of Maxim Integrated Products, Inc.
MAX4310EUA
MAX4310ESA
MAX4311EEE
MAX4311ESD
MAX4312EEE
MAX4312ESE
MAX4313EUA
MAX4313ESA
MAX4314EEE
MAX4314ESD
MAX4315EEE
MAX4315ESE
150MHz -3dB Bandwidth (MAX4313)
730mV of the Rails
Negative Rail
16-Pin QSOP Packages
PART
8-Pin SO/µMAX
14-Pin Narrow SO, 16-Pin QSOP
16-Pin Narrow SO/QSOP
8-Pin SO/µMAX
14-Pin Narrow SO, 16-Pin QSOP
16-Pin Narrow SO/QSOP
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
-40ºC to +85°C
TEMP RANGE
Ordering Information
PIN-PACKAGE
Selector Guide
PIN-PACKAGE
8 µMAX
8 SO
16 QSOP
14 Narrow SO
16 QSOP
16 Narrow SO
8 µMAX
8 SO
16 QSOP
14 Narrow SO
16 QSOP
16 Narrow SO
Features
®
and
1

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MAX4310 Summary of contents

Page 1

... The six products in this family are differentiated by the number of multiplexer inputs and the gain configuration. The MAX4310/ MAX4311/MAX4312 integrate 2-/4-/8-channel multiplex- ers, respectively, with an adjustable gain amplifier opti- mized for unity-gain stability. The MAX4313/MAX4314/ MAX4315 integrate 2-/4-/8-channel multiplexers, respec- tively, with a +2V/V fixed-gain amplifier ...

Page 2

... Lead Temperature (soldering, 10s) .................................+300°C = 2.5V unless otherwise noted. Typical values are at T OUT A MIN MAX CONDITIONS Inferred from PSRR test MAX4310/MAX4311/MAX4312, inferred from CMRR test MAX4313/MAX4314/MAX4315, inferred from output voltage swing 0 ≤ V ≤ 2.2V, MAX4310/MAX4311/MAX4312 CM only MAX4310/MAX4311/MAX4312 only ...

Page 3

... 30Ω 4.0V to 10.5V CC MAX4310/MAX4313 MAX4311/MAX4314 MAX4312/MAX4315 SHDN ≤ ≤ ≥ 150Ω 1.5V +1V/V (MAX4310/MAX4311/MAX4312 VCL CONDITIONS MAX4310 MAX4311 MAX4312 V = 100mVp-p OUT MAX4313 MAX4314 MAX4315 MAX4310 MAX4311 MAX4312 V = 100mVp-p OUT MAX4313 MAX4314 MAX4315 = +25°C.) A ...

Page 4

... Gain Matching Differential Gain Error DG Differential Phase Error DG Spurious-Free Dynamic SFDR Range Second Harmonic Distortion Third Harmonic Distortion Total Harmonic Distortion THD 4 _______________________________________________________________________________________ = 150Ω 1.5V +1V/V (MAX4310/MAX4311/MAX4312 VCL CONDITIONS MAX4310 MAX4311 MAX4312 V = 2Vp-p OUT MAX4313 MAX4314 MAX4315 MAX4310 MAX4311 MAX4312 ...

Page 5

... A = +1V/V (MAX4310/MAX4311/MAX4312 VCL CONDITIONS MAX4310/MAX4313 f = 10MHz, MAX4311/MAX4314 V = 2Vp-p IN MAX4312MAX4315 SHDN = 10MHz 2Vp 10MHz Channel on or off f = 10kHz f = 10kHz Typical Operating Characteristics = 150Ω / 1.5V +1V/V (MAX4310/MAX4311/MAX4312 VCL MAX4310 GAIN FLATNESS vs. FREQUENCY 0 100mVp-p 0.4 OUT 0.3 0.2 0.1 0 -0.1 -0.2 -0.3 -0.4 -0.5 100k 1M 10M 100M FREQUENCY (Hz) ...

Page 6

... SMALL-SIGNAL GAIN vs. FREQUENCY 100mVp-p 3 OUT 100k 1M 10M 100M 1G FREQUENCY (Hz) 6 _______________________________________________________________________________________ Typical Operating Characteristics (continued) = 150Ω / 1.5V +1V/V (MAX4310/MAX4311/MAX4312 VCL MAX4311 GAIN FLATNESS vs. FREQUENCY 0 100mVp-p OUT 0.1 0 -0.1 -0.2 -0.3 -0.4 -0.5 -0.6 -0.7 -0 100 FREQUENCY (MHz) MAX4312 GAIN FLATNESS vs. FREQUENCY 0.2 ...

Page 7

... MAX4310/MAX4311/MAX4312 HARMONIC DISTORTION vs. FREQUENCY - 2Vp-p OUT -30 -40 -50 -60 2ND HARMONIC -70 -80 3RD HARMONIC -90 -100 100k 1M 10M FREQUENCY (Hz) _______________________________________________________________________________________ Typical Operating Characteristics (continued) = 150Ω / 1.5V +1V/V (MAX4310/MAX4311/MAX4312 VCL MAX4314 GAIN FLATNESS vs. FREQUENCY 0 100mVp-p OUT 0.1 0 -0.1 -0.2 -0.3 -0.4 -0.5 -0.6 -0.7 -0.8 1000 1 10 100 FREQUENCY (MHz) MAX4315 GAIN FLATNESS vs ...

Page 8

... FREQUENCY (MHz) VOLTAGE-NOISE DENSITY vs. FREQUENCY (INPUT REFERRED) 100 10 10 100 1k 10k 100k 1M 10M FREQUENCY (Hz) 8 _______________________________________________________________________________________ Typical Operating Characteristics (continued) = 150Ω / 1.5V +1V/V (MAX4310/MAX4311/MAX4312 VCL OFF-ISOLATION vs. FREQUENCY 0 -20 MAX4311 -40 MAX4314 MAX4312 -60 MAX4315 -80 MAX4310 MAX4313 -100 -120 1G 100k 1M 10M ...

Page 9

... OUT (1V/div) 10ns/div MAX4315 LARGE-SIGNAL PULSE RESPONSE IN (500mV/div) OUT (IV/div) 10ns/div MAX4312 SMALL-SIGNAL PULSE RESPONSE IN (50mV/div) OUT (50mV/div) 10ns/div = +1V/V (MAX4310/MAX4311/MAX4312), A MAX4313 LARGE-SIGNAL PULSE RESPONSE IN (500mV/div) OUT (1V/div) 10ns/div MAX4310 SMALL-SIGNAL PULSE RESPONSE IN (50mV/div) OUT (50mV/div) 10ns/div MAX4313 SMALL-SIGNAL PULSE RESPONSE IN ...

Page 10

... L IN (50mV/div) OUT (50mV/div) 10ns/div CHANNEL-SWITCHING TRANSIENT A0 (2.5V/div) OUT (10mV/div) 20ns/div 10 ______________________________________________________________________________________ Typical Operating Characteristics (continued) = 150Ω / 1.5V +1V/V (MAX4310/MAX4311/MAX4312 VCL MAX4315 SMALL-SIGNAL PULSE RESPONSE IN (50mV/div) OUT (50mV/div) 10ns/div MAX4313 SMALL-SIGNAL PULSE RESPONSE (C = 10pF (50mV/div) OUT (50mV/div) ...

Page 11

... High-Speed, Low-Power, Single-Supply Multichannel, Video Multiplexer-Amplifiers MAX4311 MAX4310 MAX4312 SO/µMAX SO/QSOP SO QSOP — — — — — — — — — 9 — — — 10 — — — 11 — ...

Page 12

... IN1 75Ω MAX4310 1 Figure 1. MAX4310 Noninverting Gain Configuration 12 ______________________________________________________________________________________ the supply rail. Local feedback around the output stage ensures low open-loop output impedance to reduce gain sensitivity to load variations. This feedback also produces demand-driven bias current to the output transistors for ±95mA drive capability while constrain- ing total supply current to only 6 ...

Page 13

... EE ( SHDN , A0, A1, A2) Figure 4. Logic-Low Input Current vs Resistor The MAX4310–MAX4315 have very high bandwidths and consequently require careful board layout, including the possible use of constant-impedance microstrip or stripline techniques. To realize the full AC performance of these high-speed OUT amplifiers, pay careful attention to power-supply bypass- ing and board layout ...

Page 14

High-Speed, Low-Power, Single-Supply Multichannel, Video Multiplexer-Amplifiers 75Ω CABLE 4 IN0 OUT 75Ω 500Ω 75Ω CABLE 5 IN1 A0 R 500Ω T 75Ω MAX4313 GND 1 7 Figure 5. Video Line Driver 4 15pF LOAD 3 2 10pF ...

Page 15

... L-C resonant circuit with the capacitive load, which causes peaking in the frequency response and degrades the amplifier’s phase margin. Although the MAX4310–MAX4315 are optimized for AC performance and are not designed to drive highly capaci- tive loads, they are capable of driving up to 20pF without oscillations ...

Page 16

... High-Speed, Low-Power, Single-Supply Multichannel, Video Multiplexer-Amplifiers Digital Interface The multiplexer architecture of the MAX4310–MAX4315 ensures that no two input channels are ever connected together. Channel selection is accomplished by apply- ing a binary code to channel address inputs. The address decoder selects input channels, as shown in Table 2. All digital inputs are CMOS compatible. ...

Page 17

... GND SHDN 500Ω MUX IN0 5 IN1 IN0 4 5 N.C. 6 SO/µMAX IN1 7 N.C. = NOT INTERNALLY CONNECTED. TIE TO GROUND PLANE FOR OPTIMAL PERFORMANCE. ______________________________________________________________________________________ MAX4310 OUT + - SHDN MUX IN0 4 5 IN1 SO/µMAX MAX4311 ...

Page 18

... Updated Typical Operating Characteristics. 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. 18 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 © ...

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