PRODUCT DESCRIPTION The SGM9117 includes triple high-speed video buffers with G = +2 in one package. Every video buffer has -db full signal bandwidth in excess of 2MHz, along with slew rates in excess of V/µs. With -6dB of crosstalk at 1MHz, the SGM9117 is useful in many high-speed applications. The differential gain and differential phase error are.1% and.2. The SGM9117 is ideal for RGB and YPbPr signal buffering or driving. Operating from single power supply ranging from 2.V to.v and sinking an ultra-low 27.mA quiescent current, the SGM9117 is also ideally suited for battery powered applications. The SGM9117 is specified over the extended - C to +12 C temperature range. It is available in SOIC-8 package. BLOCK DIAGRAM FEATURES Triple 2MHz Video Drivers Transparent Input Clamping 6dB Output Driver Gain and Drive Dual Video Loads Rail-to-Rail Output Input Voltage Range Includes Ground AC- or DC-Coupled Inputs AC- or DC-Coupled Outputs Operates from 2.V to.v Single Power Supply Low Power (9.2mA/Channel) 27.mA Total Supply Current Available in Green SOIC-8 Package APPLICATIONS Video Amplifiers Cable and Satellite Set-Top Boxes Communication Devices Video on Demand Portable and Handheld Products Personal Video Recorders DVD Players HDTV Projectors IN1 Transparent Clamp 6dB OUT1 IN2 Transparent Clamp 6dB OUT2 IN Transparent Clamp 6dB OUT REV. B
PACKAGE/ORDERING INFORMATION ORDER NUMBER PACKAGE DESCRIPTION TEMPERATURE RANGE PACKAGE OPTION MARKING INFORMATION SGM9117XS/TR SOIC-8 - to +12 Tape and Reel, 2 SGM9117XS PIN CONFIGURATION (TOP VIEW) PIN DESCRIPTION SGM9117 IN1 1 8 IN2 IN +V S 2 7 6 OUT1 OUT2 OUT GND PIN NAME FUNCTION 1 IN1 Video Input. Channel 1. 2 IN2 Video Input. Channel 2. IN Video Input. Channel. +V S Power Supply. GND Ground. 6 OUT Video Output. Channel. 7 OUT2 Video Output. Channel 2. 8 OUT1 Video Output. Channel 1. SOIC-8 ABSOLUTE IMUM RATINGS Supply Voltage, +V S to GND...7.V Input Voltage...GND -.V to (+V S) +.V Storage Temperature Range...-6 to +1 Junction Temperature...16 Operating Temperature Range...- to +12 Power Dissipation, P D @ T A = 2 SOIC-8...8W Package Thermal Resistance SOIC-8, θ JA...128 /W Lead Temperature (Soldering 1 sec)...26 ESD Susceptibility HBM...V MM...V CAUTION This integrated circuit can be damaged by ESD if you don t pay attention to ESD protection. SGMICRO recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage. ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications. SGMICRO reserves the right to make any change in circuit design, specification or other related things if necessary without notice at any time. Please contact SGMICRO sales office to get the latest datasheet. NOTE: 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. 2
ELECTRICAL CHARACTERISTICS: V S = +.V (At R L = 1Ω connected to GND, V IN =1mV PP and C IN =.1μF, all outputs AC-coupled with 22μF, unless otherwise noted.) PARAMETER CONDITIONS +2 +2 to7 SGM9117 / OVER TEMPERATURE - to +8 - to +12 UNITS / INPUT CHARACTERISTICS Output Level Shift Voltage (V OLS) Input Voltage Clamp (V CLAMP ) Clamp Charge Current Voltage Gain (A V ) V IN = V, No load I IN = -1mA V IN = V CLAMP - 1mV R L = 1Ω 261 -. -. 1.97 8-2 -6.8 1.9 2.6-22 -6.9 1.88 2.8 6-26 -7. 1.8 2.1 9-29 -8.1 1.8 2.1 mv mv ma V/V V/V OUTPUT CHARACTERISTICS Output Voltage High Swing Output Short-Circuit Current (I SC ) V IN = V, R L = 1Ω to GND V IN = V, to GND through 1Ω V IN = 1mV, out shorted to +V S through 1Ω. -1 11. -12 1.28.2.2 V ma ma POWER SUPPLY Operating Voltage Range Power Supply Rejection Ratio (PSRR) Quiescent Current (I Q ) V S = 2.7V to.v V IN = mv 62 27. 2.. 9 2.7. 8. 2.7. 6. 2.7. 7. V V db ma DYNAMIC PERFORMANCE ±.1dB Bandwidth -db Bandwidth Slew Rate Differential Gain (DG) Differential Phase (DP) Group Delay Variation (D/DT) Crosstalk (channel-to-channel) Fall Time Rise Time R L = 1Ω R L = 1Ω 2% to 8%, V IN = 1V Step NTSC & PAL DC-coupled NTSC & PAL AC-coupled NTSC & PAL DC-coupled NTSC & PAL AC-coupled f = khz, 26.MHz at 1MHz 2.V STEP, 8% to 2% 2.V STEP, 8% to 2% 92 2.1.6.2.8. -6..1 MHz MHz V/μs % % ns db ns ns
ICAL PERFORMANCE CHARACTERISTICS At V S = +.V, T A = +2, R L = 1Ω, all outputs AC-coupled with 22μF, unless otherwise noted. Frequency Response 27 Phase vs. Frequency Normalized Gain (db) - -6-9 -12-1.1 1 1 1 1 Frequency (MHz) Phase (degree) 18 9-9 -18-27.1 1 1 1 1 Frequency (MHz).8 Large Signal Step Response. Small Signal Step Response.2 Output Voltage (V). -. Output Voltage (V).1 -.1 -.2 -.8 -.7 -.2.2.7 Time (μs) -. -...1 Time (μs) - PSRR vs. Frequency (with Bypass Caps) PSRR vs. Frequency (without Bypass Caps) PSRR(dB) - -6-6 -7-7 -8-8 -9-9 PSRR (db) -1-2 - - - -6-7 -1-8.1.1 1 1 1 Frequency(MHz).1.1 1 1 1 Frequency (MHz)
ICAL PERFORMANCE CHARACTERISTICS At V S = +.V, T A = +2, R L = 1Ω, all outputs AC-coupled with 22μF, unless otherwise noted. Group Delay (ns) 8 7 6 2 1 Group Delay vs. Frequency.1 1 1 1 Frequency (MHz) Quiescent Current (ma) 29 28 27 26 2 2 2 22 21 2 Quiescent Current vs. Supply Voltage No Load V IN = mv 2.... Supply Voltage (V) Quiescent Current (ma) 8 6 2 28 26 2 22 2 18 Quiescent Current vs. Temperature - -2 2 7 1 12 Temperature ( ) Gain Error (%) 2.7 2. 2.1 1.8 1. 1.2.9.6. Gain Error vs. Temperature - -2 2 7 1 12 Temperature ( ) Output Voltage Swing to the Positive Rail vs. Output Current.8.7 Output Voltage Swing to the Negative Rail vs. Output Current V IN = V Output Voltage (V).. +8 +2 - Output Voltage (V).6....2 +2 +8 -.1 2 6 8 1 Output Current (ma) 2 6 8 1 Output Current (ma)
APPLICATION INFORMATION Functional Description SGM9117 operates from a single 2.V to V supply. In application, SGM9117 is a fully integrated solution for buffering RGB or HDTV component signals in front of video decoder or behind video encoder. For example, SGM9117 can replace three amplifier drivers at R\G\B and Y\Pb\Pr output side in set-top box, Monitor and LCD TV. This solution can help reduce PCB size and production cost, and it also improves video signal performance comparing with traditional design using discrete components. SGM9117 features a DC-coupled input buffer, and a gain of 6dB in the output amplifier to drive load. The AC- or DC-coupled input buffer eliminates sync crush, droop, and field tilt. The output of SGM9117 also can be DC-coupled or AC-coupled. Input Considerations Besides AC coupling, the SGM9117 inputs also can be DC-coupled. In DC coupling application, no input coupling capacitors are needed because the amplitude of input video signal from DAC includes ground and extends up to 1.V, and SGM9117 can be directly connected to the output of a single-supply, current-output DAC without any external bias network. In applications where DAC s output level exceeds the range from V to 1.V, or SGM9117 is driven by an unknown external source or a SCART switch which has its own clamping circuit, AC coupling is needed. Output Considerations The SGM9117 outputs can be DC-coupled or AC-coupled. When input is V, the SGM9117 output voltage is 26mV typically. In DC coupling design, one resistor is used to connect SGM9117 s output pin with external load directly, and this serial back-termination resistor is used to match the impedance of the transmission line between SGM9117 and external load to cancel the signal reflection. The SGM9117 outputs can sink and source current allowing the device to be AC-coupled with external load. In AC coupling, at least 22µF capacitor will be used in order to cancel field tilt. Power-Supply Bypassing and Layout Correct power supply bypassing is very important for optimizing video performance in design. One.1µF and one 1µF capacitors are always used to bypass +V S pin of SGM9117. Place these two capacitors as close to the SGM9117 supply pin as possible. A large ground plane is also needed to ensure optimum performance. The input and output termination resistors should be placed as close to the related pins of SGM9117 as possible to avoid performance degradation. The PCB traces at the output side should have characteristic impedance in order to match the characteristic impedance of the cable connecting external load. In design, keep the board trace at the inputs and outputs of the SGM9117 as short as possible to minimize the parasitic stray capacitance and noise pickup. Designer needs to cavern out the ground layer under input and output trace in order to reduce stray capacitance and avoid signal peaking. 6
APPLICATION INFORMATION Typical Application Diagram The circuit in Figure 2 is normally used for AC-coupled output and DC-coupled input with DAC which has an output voltage range from V to 1.V. AC-coupled output offers slightly lower power dissipation..1µf or.1µf 1µF +V +V S R/Pr 1 IN1 OUT1 SGM9117 8 R/Pr G/Y 2 IN2 OUT2 7 G/Y B/Pb IN OUT GND 6 B/Pb Figure 1. DC Coupling Circuit.1µF or.1µf 1µF +V +V S R/Pr 1 IN1 OUT1 SGM9117 8 22µF R/Pr G/Y 2 IN2 OUT2 7 G/Y 22µF B/Pb IN OUT GND 6 22µF B/Pb Figure 2. Input DC and Output AC Coupling Circuit NOTE: 1. Power supply +V S must be sequenced on first before input video signals. 8
PACKAGE OUTLINE DIMENSIONS SOIC-8 D e.6 2.2 E1 E.2 b 1.27 RECOMMENDED LAND PATTERN (Unit: mm) L A A1 θ c A2 Dimensions In Millimeters Dimensions In Inches Symbol A 1. 1.7..69 A1.1.2..1 A2 1. 1...61 b..1.1.2 c.17.2.6.1 D.7.1.18.2 E.8..1.17 E1.8 6.2.228.2 e 1.27 BSC. BSC L. 1.27.16. θ 8 8 9
TAPE AND REEL INFORMATION REEL DIMENSIONS TAPE DIMENSIONS P2 P W Q1 Q2 Q1 Q2 Q1 Q2 B Q Q Q Q Q Q Reel Diameter P1 A K Reel Width (W1) DIRECTION OF FEED NOTE: The picture is only for reference. Please make the object as the standard. KEY PARAMETER LIST OF TAPE AND REEL Package Type Reel Diameter Reel Width W1 A B K P P1 P2 W Pin1 Quadrant SOIC-8 1 12. 6.. 2.1. 8. 2. 12. Q1 1
CARTON BOX DIMENSIONS NOTE: The picture is only for reference. Please make the object as the standard. KEY PARAMETER LIST OF CARTON BOX Reel Type Length Width Height Pizza/Carton 1 86 28 7 11