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SP207EHCT Datasheet(PDF) 5 Page - Sipex Corporation |
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SP207EHCT Datasheet(HTML) 5 Page - Sipex Corporation |
5 / 16 page 5 SP207EHDS/08 SP207EH Series High Performance Transceivers © Copyright 2000 Sipex Corporation FEATURES As in the original RS-232 multi-channel products, the SP207EH Series high speed multi-channel RS-232 line transceivers provide a variety of configurations to fit most designs, especially high speed applications where +12V is not available. The SP207EH Series is a superior high speed drop-in replacement to our previous versions as well as popular industry standards. All devices in this series feature low-power CMOS construction and Sipex's proprietary on-board charge pump circuitry to generate the +10V RS-232 voltage levels. The ability to use 0.1 µF charge pump capacitors saves board space and reduces production costs. The devices in this series provide different driver/receiver combinations to match any application requirement. The SP211EH and SP213EH models feature a low–power shutdown mode, which reduces power supply drain to 1 µA. The SP213EH includes a Wake-Up function which keeps two receivers active in the shutdown mode, unless disabled by the EN pin. The family is available in 28–pin SO (wide) and SSOP (shrink) small outline packages. Devices can be specified for commercial (0 °C to +70°C) and industrial/extended (–40 °C to +85°C) oper- ating temperatures. THEORY OF OPERATION The SP207EH Series devices are made up of three basic circuit blocks — 1) transmitter/ driver, 2) receiver and 3) the SIPEX–propri- etary charge pump. Each model within the Series incorporates variations of these circuits to achieve the desired configuration and performance. Charge–Pump The charge pump is a Sipex–patented design (5,306,954) and uses a unique approach compared to older less–efficient designs. The charge pump still requires four external capacitors, but uses a four–phase voltage shifting technique to attain symmetrical 10V power supplies. Figure 3a shows the waveform found on the positive side of capacitor C 2, and Figure 3b shows the negative side of capacitor C 2. There is a free–running oscillator that controls the four phases of the voltage shifting. A description of each phase follows. Phase 1 — V SS charge storage —During this phase of the clock cycle, the positive side of capacitors C 1 and C 2 are initially charged to +5V. Cl + is then switched to ground and the charge in C 1 – is transferred to C 2 –. Since C 2 + is connected to +5V, the voltage potential across capacitor C 2 is now 10V. Phase 2 — V SS transfer — Phase two of the clock connects the negative terminal of C 2 to the VSS storage capacitor and the positive terminal of C 2 to ground, and transfers the generated –l0V to C 3. Simultaneously, the positive side of capacitor C 1 is switched to +5V and the negative side is connected to ground. Phase 3 — V DD charge storage — The third phase of the clock is identical to the first phase — the charge transferred in C 1 produces –5V in the negative terminal of C 1, which is applied to the negative side of capacitor C 2. Since C2 + is at +5V, the voltage potential across C 2 is l0V. VCC = +5V –5V –5V +5V VSS Storage Capacitor VDD Storage Capacitor C1 C2 C3 C4 + + ++ – – – – Figure 1. Charge Pump — Phase 1 |
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