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LT1537 Datasheet(数据表) 5 Page - Linear Technology |
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LT1537 Datasheet(HTML) 5 Page - Linear Technology |
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5 page 
5 LT1537 CC HARA TERISTICS A TYPICALPERFOR CE Shutdown to Driver Output Driver Output Waveforms LT1537 • TPC12 10 5 0 –10 –5 DRIVER OUTPUT RL = 3k CL = 2500pF INPUT DRIVER OUTPUT RL = 3k LT1537 • TPC13 DRIVER OUTPUT HIGH RL = 3k ON/OFF PIN DRIVER OUTPUT LOW RL = 3k PI FU CTIO S VCC: 5V Input Supply Pin. Supply current drops to zero in the shutdown mode. This pin should be decoupled with a 0.1 µF ceramic capacitor close to the package pin. Insuffi- cient supply bypassing can result in low output drive levels and erratic charge pump operation. GND: Ground Pin. ON/OFF: TTL/CMOS Compatible Operating Mode Control. A logic LOW puts the device in the shutdown mode which reduces input supply current to zero and places all of the drivers and receivers in high impedance state. A logic HIGH fully enables the transceiver. DRIVER DISABLE: This pin provides an alternate control for the charge pump and RS232 drivers. A logic HIGH on this pin shuts down the charge pump and places all drivers in a high impedance state. Receivers remain active under these conditions. Floating the driver disable pin or driving it to a logic LOW level fully enables the transceiver. A logic LOW on the On/Off pin supersedes the state of the Driver Disable pin. Supply current drops to 1.5mA when in DRIVER DISABLE mode. V+: Positive Supply Output (RS232 Drivers). V+ ≈ 2VCC – 1.5V. This pin requires an external charge storage capaci- tor C ≥ 0.1µF, tied to ground or VCC. Larger value capaci- tors may be used to reduce supply ripple. With multiple transceivers, the V + and V – pins may be paralleled into common capacitors. For large numbers of transceivers, increasing the size of the shared common storage capaci- tors is recommended to reduce ripple. V–: Negative Supply Output (RS232 Drivers). V – ≈ –(2VCC – 2.5V). This pin requires an external charge storage capacitor C ≥ 0.1µF. V– is short-circuit proof for 30 seconds. C1+, C1–, C2+, C2–: Commutating Capacitor Inputs. These pins require two external capacitors C ≥ 0.2µF: one from C1+ to C1– and another from C2+ to C2–. To maintain charge pump efficiency, the capacitor’s effective series resistance should be less than 2 Ω. Low ESR ceramic capacitors work well in this application. DRIVER IN: RS232 Driver Input Pins. These inputs are TTL/CMOS compatible. Inputs should not be allowed to float. Tie unused inputs to VCC. DRIVER OUT: Driver Outputs at RS232 Voltage Levels. Driver output swing meets RS232 levels for loads up to 3k. Slew rates are controlled for lightly loaded lines. Output current capability is sufficient for load conditions up to 2500pF. Outputs are in a high impedance state when in shutdown mode, VCC = 0V or when the driver disable pin is active. Outputs are fully short-circuit protected from V – + 25V to V+ – 25V. Applying higher voltages will not damage the device if the overdrive is moderately current limited. Short circuits on one output can load the power supply generator and may disrupt the signal levels of the other outputs. The driver outputs are protected against ESD to ±5kV for human body model discharges. |
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