| Part Numbert | Mfg | Packt | D/C | Descriptiont | Qty | Company/Contact |
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SV12 Datasheet All thermal impedance data is approximate for static air conditions at lW of power dissipation. Values will change depending on operation conditions and application. See the Intel Packaging Handbook (order number 240800) for a description of Intel's thermal impedance test methodology. SV12 Price A regulated output voltage is available at the output terminal (VOUT) to support the operation of the antenna port in advanced satellite STB applications. The regulated output may be set to either 13V or 18V by use of the voltage select command (VSEL) through the I2C bus. Additionally, to compensate for the voltage drop in the coaxial cable, the voltage may be increased by lV with the line length compensation (LLC) feature. An enable command sent on the I2C bus provides standby mode control for the PWM and linear combination, disabling the output to conserve power. SV12 on stock Maximum ratings Collector-emitter voltage Collector-emitter voltage Collectar-base voltage Emitter-base valtage Collector current Collector peak current (t < 10 ms) Emitter peak current {t < 10 ms) Base current Junction temperature Storage temperature range Total power dissipation (Tcase S 25 0C; VCE S 12 V) The 87C196LA is a high-performance 16-bit microcontroller. The 87C196LA is composed of a high-speed core with the following peripherals: an asynchronous/synchronous serial l/0 port (8096 compatible) with a dedicated 16-bit baud-rate generator; an additional synchronous serial l/0 port with full duplex master/slave transceivers; a six-channel A/D converter with sample and hold; a flexible timer/counter structure with prescaler, cascading, and quadrature capabilities; six modularized, multiplexed high-speed l/0 for capture and compare (called event processor array) with 200 ns resolution and double buffered inputs; and a sophis- ticated, prioritized interrupt structure with programmable peripheral transaction server (PTS). The clock doubler circuitry and oscillator output signal enable a 4 MHz resonator to achieve the same internal clock speed as a more costly 8 MHz resonator in previous applications. This same circuitry can drive other devices where a separate resonator was required in the past. Another cost-savings feature is the fact that the l/0 ports are driven low at reset, avoiding the need for pull-up resistors. |
