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| ISO 9001 CERTIFIED BY DSCC M.S.KENNEDY CORP. FEATURES: WIDE BANDWIDTH VIDEO AMPLIFIER SYSTEM 620 (315) 701-6751 4707 Dey Road Liverpool, N.Y. 13088 230 MHz Video Bandwidth With Vout=4Vpp Transition Times Less Than 2.0nS With Vout=4Vpp 0 To 4 Volt High Input Impedance DC Drive Control With 3dB Range 0 To 4 Volt High Input Impedance DC Contrast Control With 40dB Range Externally Gated Comparator for Brightness Control Simple To Parallel For RGB Color Tracking 0.5V to 9.0V Output Voltage Swing Capability On Board Accurate Reference Voltage Generator Available Fully Qualified to MIL-PRF-38534 MIL-PRF-38534 CERTIFIED DESCRIPTION: The MSK 620(B) is a very high frequency video amplifier system capable of driving displays with resolutions up to 1664 x 1200. Brightness is controlled with a gated differential input black level clamp comparator. There are also DC inputs available for contrast control and drive control. All DC control inputs operate over a 0V to 4V input range and feature high impedance inputs. The MSK 620(B) is packaged in a space efficient hermetically sealed 18 pin dip package. EQUIVALENT SCHEMATIC TYPICAL APPLICATIONS Wideband Amplifier With Gain and DC Offset Control High Resolution CRT Monitor Ultra High Performance Video Processing 1 2 3 4 5 6 7 8 9 1 PIN-OUT INFORMATION Control Output (+) Attn. Input (+) Attn. Input (-) Control Output (-) Ground Video Input Contrast Control Input Drive Control Input Vref Output 10 11 12 13 14 15 16 17 18 Clamp Cap Clamp Gate Input Ground +Vcc Video Output N/C Clamp Input (-) Clamp Input (+) Ground Rev. A 8/00 ABSOLUTE MAXIMUM RATINGS ELECTRICAL SPECIFICATIONS Group A +Vcc=+12.0V Unless Otherwise Specified Parameter STATIC Power Supply Current Video Input Bias Voltage Clamp Gate High Input Voltage Clamp Gate Low Input Voltage DYNAMIC CHARACTERISTICS Video Amplifier Gain 5 Test Conditions 1 MSK 620B Typ. 60 2.65 20 0.2 10 -23 20 6 230 1.5 1.5 5.00 0.006 0.005 0.18 Max. 68 2.9 0.8 24 0.65 2.0 2.0 5.05 0.01 0.01 0.45 Min. 2.0 1.8 16 9.0 5 190 4.9 - MSK 620 Typ. 60 2.65 20 0.2 10 -23 20 6 200 2.0 2.0 5.0 0.006 0.005 0.18 Max. 72 2.9 1.0 24 0.65 3.0 3.0 5.1 0.01 0.01 0.45 Subgroup Min. 1,2,3 1,2,3 1,2,3 1,2,3 4 2.0 2.0 16 9.0 5 200 4.95 - RLOAD= VIN=N/C Comparator Off Comparator On Video Output Low Voltage 5 Video Output High Voltage 5 Attenuation 2 Video Amplifier Input Resistance 2 Gain Range 5 -3dB Video Amplifier Bandwidth 5 Output Rise Time 5 Output Fall Time 5 VOLTAGE REFERENCE Output Voltage Line Regulation 2 Clamp Cap Voltage = 0V Clamp Cap Voltage = 6V VCONTRAST=0.5V fIN=12KHz VDRIVE=0V to 4V V0=4VPP V0=4VPP V0=4VPP IL=0mA Ext VCC=11V to 13V IL=0 to 10mA -55CTc125C 4 4 4 4 4 4 1 - Load Regulation 2 Output Voltage Change w/Temp. 2 NOTES: 1 2 3 4 5 6 RIN=30, CIN=10F, RL=499, unless otherwise specified. Clamp Gate Input=0V, VCONTRAST=VDRIVE=VBRIGHTNESS=4V. Guaranteed by design but not tested. Typical parameters are representative of actual device performance but are for reference only. Industrial grade devices shall be tested to subgroups 1 and 4 unless otherwise specified. Military grade devices ('B' suffix) shall be 100% tested to subgroups 1,2,3 and 4. Subgroup 5 and 6 testing available upon request. Subgroup 1,4 TA=TC=+25C Subgroup 2,5 TA=TC=+125C Subgroup 3,6 TA=TC=-55C 2 Rev. A 8/00 TJ VIN IOUT IOUTREF VccVinGND 28.0mA 20mA TC +VCC JC Supply Voltage Thermal Resistance (Junction to Case) Voltage At Any Input Pin Video Output Current Reference Output Current +13.5V 19.0C/W TST TLD Storage Temperature Range -65C to +150C Lead Temperature Range 300C (10 Seconds) Case Operating Temperature MSK620 -40C to +85C MSK620B -55C to +125C Junction Temperature 150C Units mA V V V V/V V V dB K dB MHz nS nS V %/V %/mA % APPLICATION NOTES VIDEO INPUT Pin 6 is the video input pin. The video input signal is coupled to this point through a 30, 10F 'RC' filter as shown in figure two. The MSK 620 is designed to receive input voltages as high as 13.5V. CLAMP CONNECTIONS Pin 16 is the (-) clamp input pin. This pin is the inverting input to the clamp comparator. A 10K feedback resistor is connected from this pin to the output pin of the amplifier (pin 14). When the clamp comparator is enabled, the voltage at pin 16 is compared to the voltage at pin 17, which is the noninverting input of the clamp comparator. A source or sink current is generated at pin 10 to charge or discharge the clamp cap and supply DC bias to the video amplifier. The DC voltage at pin 17 is user adjustable through a 100K potentiometer voltage divider to Vref (see Figure 2). In DC coupled cathode drive applications, brightness can be varied by varying the DC voltage at pin 17. OUTPUT Pin 14 is the video output pin. Since the output of the MSK 620 is a push pull design, there is no need for an external pullup resistor. A 499 load resistor to analog ground will optimize the output stage current level and bandwidth and is highly recommended. POWER SUPPLY CONNECTIONS Pin 13 is the positive power supply pin. Convenient internal power supply decoupling consists of a parallel combination of three capacitors ranging from 0.01F to 0.47F. The user is advised to connect at least a 4.7F tantalum decoupling capacitor as close to the power supply pin as possible. NO CONNECT PINS Pins 15 is a no connect pin and should be tied to the nearest available video ground plane. DC RESTORATION Pin 11 is the clamp gate input pin and is driven by a TTL back porch clamp signal. A voltage level of +1.3V or less is a "low level" and a voltage level of +1.5V or greater is a "high level". An active low level at this pin enables the clamp comparator section so that DC restoration can be accomplished. This pin should be held at a "high" logic level when a back porch clamp signal is not used. Vref OUTPUT Pin 9 is the Vref output pin. This pin connects to the output of an ultra stable 5.0VDC reference voltage generator internal to the MSK 620. This reference is used as a voltage source for the contrast, drive and clamp inputs. CONTRAST CONTROL To achieve contrast control, pin 1 is shorted to pin 2 and pin 3 is shorted to pin 4. The voltages at pins 1 and 4 are controlled by the input voltage at pin seven. As the voltage at pin 7 increases, the voltages at pins 1 and 4 become offset. With pin 7 at zero volts, pins 1 and 4 are at minimum offset and the contrast is set to the minimum value of -38dB typical. With pin 7 at 4V, pins 1 and 4 are at maximum offset and contrast is maximized to +26dB. Pin 7 is internally decoupled to ground with a 0.1uF capacitor. DRIVE CONTROL Pin 8 is the drive control input. This pin accepts a DC voltage to control overall gain. Pin 8 is internally decoupled to ground with a 0.1uF capacitor. With 0V at pin 8, the gain is minimum (-6dB). With 4V at pin 8, the gain is maximum (0dB). Drive control is approximated by the following formula: ATTENUATION (dB) = (1.5) x (DRIVE VOLTAGE) - (6dB) See graph of Attenuation vs. Drive Control Voltage. CLAMP CAP Pin 10 is the clamp comparator output pin. A capacitance of approximately 0.1F is connected from this pin to ground. During the "back porch" portion of the clamp signal, the clamp capacitor is either charged or discharged to match the voltage set on the non-inverting input of the clamp comparator (pin 16). During the video portion of the input signal, the clamp comparator is disabled and the clamp cap holds the proper DC bias in the video amplifier. 3 A typical single video channel connection diagram for the MSK 620 is shown in Figure 1 above. The DC voltage at pin 6 is internally fixed at +2.6V and the video signal is AC coupled to the input. An internal reference voltage generator supplies a +5.0VDC level at pin 9 for use with the contrast, drive and brightness control potentiometers. With pin 7 at 0V, minimum gain is realized. With pin 7 at 4V, maximum gain is realized. The clamp gate input at pin 11 accepts a TTL level clamp signal for DC restoration during the back porch segment of the video signal. Pin 17 is the brightness control input pin and accepts a zero to four volt DC level. This level sets the black level of the signal. If pin 17=+1VDC the signal black level will be +1VDC. The 499 load resistor biases the class A output stage and should be included during the power dissipation calculation stage. 499 is the minimum recommended value of load resistance for the MSK 620. Rev. A 8/00 TYPICAL PERFORMANCE CURVES 4 Rev. A 8/00 COMPLETE RGB VIDEO SYSTEM A typical connection diagram for a red, green, blue video amplifier system is shown in Figure 2. To achieve optimum contrast tracking, a master slave contrast connection is utilized. This is accomplished by connecting pins 1 and 2 of all three preamplifiers together and using the contrast control of one channel to vary the contrast of all three channels simultaneously. White balance is achieved through individual drive controls. Black level can also be adjusted for each channel by adjusting the voltage at pin 17. If the cathode is AC coupled, the video signal is DC restored at the cathode. In that case black level clamping can be accomplished by biasing pin 17 to the desired black level. The video output pins of the MSK 620 rests at approximately +3.9VDC and the input of the MSK 640 must be biased at approximately +1.55VDC. D1, D2, D3 and Q1 act as a level shifting stage to match the DC level requirements of the preamplifier and the driver. Black level control is accomplished with R8 and R9 sampling the output and feeding it back to the clamping section of the MSK 620. This scheme provides black level control superior to locally sampling the MSK 620 output and feeding that back to the clamping section. 5 Rev. A 8/00 MECHANICAL SPECIFICATIONS NOTE: ESD Triangle indicates Pin 1. ALL DIMENSIONS ARE 0.010 INCHES UNLESS OTHERWISE LABELED ORDERING INFORMATION Part Number MSK620 MSK620B Screening Level Industrial Military-Mil-PRF-38534 4707 Dey Road, Liverpool, New York 13088 Phone (315) 701-6751 FAX (315) 701-6752 www.mskennedy.com The information contained herein is believed to be accurate at the time of printing. MSK reserves the right to make changes to its products or specifications without notice, however, and assumes no liability for the use of its products. M.S. Kennedy Corp. 6 Rev. A 8/00 |
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