TC1044S Datasheet, PDF(6/8 Page) TelCom Semiconductor, Inc – CHARGE PUMP DC-TO-DC VOLTAGE CONVERTER

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

TC1044S Datasheet, PDF (6/8 Pages) TelCom Semiconductor, Inc – CHARGE PUMP DC-TO-DC VOLTAGE CONVERTER

◁

CHARGE PUMP DC-TO-DC

VOLTAGE CONVERTER

TC1044S

3 TC1044S 6

V+

COSC

VOUT

+ C2

Figure 7. Lowering Oscillator Frequency

Combined Negative Voltage Conversion

and Positive Supply Multiplication

Figure 9 combines the functions shown in Figures 3 and

8 to provide negative voltage conversion and positive volt-

age multiplication simultaneously. This approach would be,

for example, suitable for generating +9V and â5V from an

existing +5V supply. In this instance, capacitors C1 and C3

perform the pump and reservoir functions, respectively, for

the generation of the negative voltage, while capacitors C2

and C4 are pump and reservoir, respectively, for the multi-

plied positive voltage. There is a penalty in this configuration

which combines both functions, however, in that the source

impedances of the generated supplies will be somewhat

higher due to the finite impedance of the common charge

pump driver at pin 2 of the device.

Efficient Positive Voltage

Multiplication/Conversion

Since the switches that allow the charge pumping op-

eration are bidirectional, the charge transfer can be per-

formed backwards as easily as forwards. Figure 10 shows

a TC1044S transforming â5V to +5V (or +5V to +10V, etc.).

The only problem here is that the internal clock and switch-

drive section will not operate until some positive voltage has

been generated. An initial inefficient pump, as shown in

3 TC1044S 6

V+

VOUT =

(2 V+) â (2 VF)

Figure 9, could be used to start this circuit up, after which it

will bypass the other (D1 and D2 in Figure 9 would never turn

on), or else the diode and resistor shown dotted in Figure 10

can be used to "force" the internal regulator on.

Voltage Splitting

The same bidirectional characteristics used in Figure 10

can also be used to split a higher supply in half, as shown in

Figure 11. The combined load will be evenly shared be-

tween the two sides. Once again, a high value resistor to the

LV pin ensures start-up. Because the switches share the

load in parallel, the output impedance is much lower than in

the standard circuits, and higher currents can be drawn from

the device. By using this circuit, and then the circuit of Figure

5, +15V can be converted (via +7.5V and â7.5V) to a nominal

â15V, though with rather high series resistance (~250â¦).

V+

3 TC1044S 6

VOUT = âV+

+ C3

V(2OVU+T)

VF)

Figure 9. Combined Negative Converter and Positive Multiplier

Negative Voltage Generation for

Display ADCs

The TC7106 is designed to work from a 9V battery. With

a fixed power supply system, the TC7106 will perform

conversions with input signal referenced to power supply

ground.

Negative Supply Generation for

4Â¹ââ Digit Data Acquisition System

The TC7135 is a 4Â¹ââ digit ADC operating from Â±5V

supplies. The TC1044S provides an inexpensive â5V source.

(See AN16 and AN17 for TC7135 interface details and

software routines.)

4-48

Figure 8. Positive Voltage Multiplier

TELCOM SEMICONDUCTOR, INC.

▷