XR32430EUCRTR-F Datasheet, PDF(9/14 Page) Exar Corporation – 3-Driver/5-Receiver Intelligent RS-232 Transceiver with 1.65V-5.5V Interface

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XR32430EUCRTR-F Datasheet, PDF (9/14 Pages) Exar Corporation – 3-Driver/5-Receiver Intelligent RS-232 Transceiver with 1.65V-5.5V Interface

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XR32430/XR32431

VCC

-VCC

+VCC

-VCC

V+ Storage Capacitor

V- Storage Capacitor

Figure 7: Charge Pump - Phase 1

VCC

-VCC

+VCC

-VCC

V+ Storage Capacitor

V- Storage Capacitor

Figure 9: Charge Pump - Phase 3

Phase 2

V- transfer â Phase two of the clock connects the negative

terminal of C2 to the VSS storage capacitor and the posi-

tive terminal of C2 to GND. This transfers a negative gener-

ated voltage to C3. This generated voltage is regulated to a

minimum voltage of -5.5V. Simultaneous with the transfer of

the voltage to C3, the positive side of capacitor C1 is

switched to VCC and the negative side is connected to

GND.

VCC

-5.5V

V+ Storage Capacitor

V- Storage Capacitor

Figure 8: Charge Pump - Phase 2

Phase 4

V+ transfer â The fourth phase of the clock connects the

negative terminal of C2 to GND, and transfers this positive

generated voltage across C2 to C4, the V+ storage capaci-

tor. This voltage is regulated to +5.5V. At this voltage, the

internal oscillator is disabled. Simultaneous with the trans-

fer of the voltage to C4, the positive side of capacitor C1 is

switched to VCC and the negative side is connected to

GND, allowing the charge pump cycle to begin again. The

charge pump cycle will continue as long as the operational

conditions for the internal oscillator are present.

VCC

+5.5V

V+ Storage Capacitor

V- Storage Capacitor

Figure 10: Charge Pump - Phase 4

Phase 3

V+ charge storage â The third phase of the clock is identi-

cal to the first phase â the charge transferred in C1 pro-

duces âVCC in the negative terminal of C1, which is applied

to the negative side of capacitor C2. Since C2+ is at VCC,

the voltage potential across C2 is 2 times VCC.

Since both V+ and Vâ are separately generated from VCC,

in a noâload condition V+ and Vâ will be symmetrical. Older

charge pump approaches that generate Vâ from V+ will

show a decrease in the magnitude of Vâ compared to V+

due to the inherent inefficiencies in the design. The clock

rate for the charge pump typically operates at greater than

250kHz. The external capacitors can be as low as 0.1Î¼F

with a 16V breakdown voltage rating.

The Exar-patented charge pumps are designed to operate

reliably with a range of low cost capacitors. Either polarized

or non polarized capacitors may be used. If polarized

capacitors are used they should be oriented as shown in

the Typical Applications Circuit. The V+ capacitor may be

connected to either ground or Vcc (polarity reversed.)

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exar.com/XR32430_XR32431

Rev 1A

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