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| DISCRETE SEMICONDUCTORS DATA SHEET CR2424S Video driver hybrid amplifier Product specification Supersedes data of 1995 Apr 04 File under Discrete Semiconductors, SC05 1995 Oct 23 Philips Semiconductors Product specification Video driver hybrid amplifier FEATURES * Typical transition times (10 to 90%) with CL at 8.5 pF: - 2.2 ns rise and 2.0 ns fall with 35 V (p-p) swing - 2.3 ns rise and 2.1 ns fall with 40 V (p-p) swing - 2.5 ns rise and 2.2 ns fall with 50 V (p-p) swing * Low power consumption * Minimum small-signal bandwidth 130 MHz * Very fast slew rate; 15000 V/s * Excellent grey-scale linearity * Unconditional stability * Gold metallization ensures excellent reliability. APPLICATIONS It is designed for application in cathode-ray tube (CRT) drivers in high-resolution colour and monochrome monitors. DESCRIPTION Hybrid amplifier module mounted in SOT115L package. PINNING PIN 1 2 3 5 7 8 9 DESCRIPTION input ground ground supply voltage (VS) ground ground output 123 Side view 5 CR2424S 1/3 page (Datasheet) 789 MSB048 Fig.1 SOT115L. LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 134). SYMBOL VS Tmb Tstg PARAMETER supply voltage (DC) operating mounting base temperature storage temperature - -20 -40 MIN. MAX. 70 +100 +125 V C C UNIT 1995 Oct 23 2 Philips Semiconductors Product specification Video driver hybrid amplifier CHARACTERISTICS Tmb = 25 C; CL = 8.5 pF; measured in test circuit (see Fig.10); unless otherwise specified. SYMBOL PARAMETER CONDITIONS MIN. TYP. CR2424S MAX. UNIT VS = 60 V; output swing = 40 V (p-p) with 30 V (DC) offset; unless otherwise specified IS VI tr tf supply current input voltage (DC) rise time transient response fall time transient response input and output open input and output open 10 to 90%; note 1 10 to 90%; note 1 39 1.3 - - - 1.4 - - - 130 - - - 11.2 160 45 1.6 2.3 2.1 51 1.9 2.9 2.6 mA V ns ns VS = 65 V; output swing = 50 V (p-p) with 32.5 V (DC) offset; unless otherwise specified IS VI tr tf supply current input voltage (DC) rise time transient response fall time transient response input and output open input and output open 10 to 90%; note 2 10 to 90%; note 2 50 1.75 2.5 2.2 57 2.1 3.2 3.2 mA V ns ns VS = 60 or 65 V; output swing = 40 or 50 V (p-p) with 30 or 32.5 V (DC) offset; unless otherwise specified Ptot BW Vtilt Vos NLN AV VG Notes 1. Input signal is a 100 kHz square wave of 3.25 V (p-p), with 1.5 V (DC) offset (50 source). 2. Input signal is a 100 kHz square wave of 3.4 V (p-p), with 1.65 V (DC) offset (50 source). 3. Sine wave output signal: 1 V (p-p). 4. Measured VO/VI (Figs 2 and 6) at input test circuit (see Fig.10). 5. Measured VO/VI (Figs 3 and 7) at input module (see Fig.10). total power dissipation small-signal bandwidth low frequency tilt voltage overshoot voltage non-linearity DC voltage gain insertion gain 50 MHz square wave between -3 dB points; note 3 1 kHz square wave varied by C1; see Fig.10 VO = 5 to 55 V 50 source; note 4 50 source; note 5 4.6 145 1.3 3 2 12.4 180 6 - 1.5 10 5 13.2 200 W MHz V % % 1995 Oct 23 3 Philips Semiconductors Product specification Video driver hybrid amplifier CR2424S handbook, halfpage 5 MLC954 MLC955 handbook, halfpage 1.9 VI (V) 3 VI (V) 1.7 1 1.5 1 0 20 40 V O (V) 60 1.3 0 20 40 VO (V) 60 VS = 60 V; Tmb = 25 C; CL = 8.5 pF; output swing = 40 V (p-p) with 30 V (DC) offset; measured in test circuit (see Fig.10). VS = 60 V; Tmb = 25 C; CL = 8.5 pF; output swing = 40 V (p-p) with 30 V (DC) offset; measured in test circuit (see Fig.10). Fig.2 Input voltage at input test circuit as a function of output voltage; typical values. Fig.3 Input voltage at input module as a function of output voltage; typical values. handbook, halfpage 3.0 MRA627 - 1 MRA628 - 1 handbook, halfpage 3.0 tr (ns) 2.6 40 V (p-p) tf (ns) 2.6 40 V (p-p) 35 V (p-p) 30 V (p-p) 2.2 2.2 35 V (p-p) 30 V (p-p) 1.8 6 8 10 12 14 16 CL (pF) 1.8 6 8 10 12 14 16 CL (pF) VS = 60 V; Tmb = 25 C; CL = 8.5 pF; output swing = 40, 35, 30 V (p-p) with 30 V (DC) offset; measured in test circuit (see Fig.10). VS = 60 V; Tmb = 25 C; CL = 8.5 pF; output swing = 40, 35, 30 V (p-p) with 30 V (DC) offset; measured in test circuit (see Fig.10). Fig.4 Rise time transient response as a function of load capacitance; typical values. Fig.5 Fall time transient response as a function of load capacitance; typical values. 1995 Oct 23 4 Philips Semiconductors Product specification Video driver hybrid amplifier CR2424S handbook, halfpage 5 MLC956 handbook, halfpage 2.0 MLC957 VI (V) 3 VI (V) 1.8 1 1.6 1 0 20 40 60 V O (V) 80 1.4 0 20 40 60 V O (V) 80 VS = 65 V; Tmb = 25 C; CL = 8.5 pF; output swing = 50 V (p-p) with 32.5 V (DC) offset; measured in test circuit (see Fig.10). VS = 65 V; Tmb = 25 C; CL = 8.5 pF; output swing = 50 V (p-p) with 32.5 V (DC) offset; measured in test circuit (see Fig.10). Fig.6 Input voltage at input test circuit as a function of output voltage; typical values. Fig.7 Input voltage at input module as a function of output voltage; typical values. MRA617 - 1 MRA615 - 1 handbook, halfpage 3.4 handbook, halfpage 3.2 tr (ns) 3.0 tf (ns) 2.8 2.6 2.4 2.2 6 10 14 C L (pF) 18 2.0 6 10 14 C L (pF) 18 VS = 65 V; Tmb = 25 C; CL = 8.5 pF; output swing = 50 V (p-p) with 32.5 V (DC) offset; measured in test circuit (see Fig.10). VS = 65 V; Tmb = 25 C; CL = 8.5 pF; output swing = 50 V (p-p) with 32.5 V (DC) offset; measured in test circuit (see Fig.10). Fig.8 Rise time transient response as a function of load capacitance; typical values. Fig.9 Fall time transient response as a function of load capacitance; typical values. 1995 Oct 23 5 Philips Semiconductors Product specification Video driver hybrid amplifier CR2424S handbook, full pagewidth VS C2 C1 5 2 input 50 1 R1 7 3 9 CL output 8 CR2424S PULSE GENERATOR BIAS UNIT TEST FIXTURE CR2424S FET PROBE SAMPLING OSCILLOSCOPE MAM143 POWER SUPPLY Fig.10 CRT amplifier test circuit and block diagram. Components used in test circuit (see Fig.10) DESIGNATION C1 C2 R1 DESCRIPTION variable capacitor chip capacitor resistor 10 nF typ. 215 VALUE 10 to 120 pF (typ. 50 pF) Equipment used in test circuit (see Fig.10) EQUIPMENT Pulse generator Bias unit Power supply FET probe Sampling oscilloscope Pico Second; Model 2600B Pico Second; Model 5555 Philips; Model PE1541, 80 V Philips; Model PM8943, attenuation 100 : 1 Tektronix; Model 11803, sampling head SD24 TYPE DESCRIPTION 1995 Oct 23 6 Philips Semiconductors Product specification Video driver hybrid amplifier CR2424S handbook, full pagewidth 150 k 3 k 680 pF 100 V supply 150 pF 6.8 22 nF 100 V 3 k 180 22 nF 100 V 30 82 pF 3.3 nF 100 V 6.4 k 47 10 1 nF 10 output input 150 pF 180 30 82 pF 6.8 MLC940 Fig.11 Internal circuit. 1995 Oct 23 7 Philips Semiconductors Product specification Video driver hybrid amplifier PACKAGE OUTLINE CR2424S handbook, full pagewidth 13.8 max 8 27.2 max 3.8 max 9.2 max 3.15 8.8 min 2.4 max 12 3 2.54 (5.08) 4.15 3.85 5 78 0.51 0.38 9 11.5 max 0.25 2.54 O 0.25 M MSA240 - 1 44.8 max 38.1 Dimensions in mm. Heatsink compound must be applied sparingly and evenly distributed. Fig.12 SOT115L. 1995 Oct 23 8 Philips Semiconductors Product specification Video driver hybrid amplifier DEFINITIONS Data sheet status Objective specification Preliminary specification Product specification Limiting values CR2424S This data sheet contains target or goal specifications for product development. This data sheet contains preliminary data; supplementary data may be published later. This data sheet contains final product specifications. Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application information Where application information is given, it is advisory and does not form part of the specification. LIFE SUPPORT APPLICATIONS These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale. 1995 Oct 23 9 |
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