TC9401 Microchip Technology, TC9401 Datasheet - Page 9

TC9401

Manufacturer Part Number

TC9401

Description

Voltage-to-Frequency/Frequency-to-Voltage Converters

Manufacturer

Microchip Technology

Datasheet

1.TC9401.pdf (20 pages)

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4.3

This output is an open drain N-channel FET, which pro-

vides a square wave one-half the frequency of the

pulse frequency output. The FREQ/2 OUT output will

change state on the rising edge of PULSE FREQ OUT.

This output requires a pull-up resistor and interfaces

directly with MOS, CMOS, and TTL logic.

4.4

The sources of both the FREQ/2 OUT and the PULSE

FREQ OUT are connected to this pin. An output level

swing from the drain voltage to ground, or to the V

supply, may be obtained by connecting this pin to the

appropriate point.

4.5

An external resistor, connected to V

point for the TC9400. Specifications for the TC9400 are

based on R

noted.

Increasing the maximum frequency of the TC9400

beyond 100kHz is limited by the pulse width of the

pulse output (typically 3µsec). Reducing R

decrease the pulse width and increase the maximum

operating frequency, but linearity errors will also

increase. R

typically produce a maximum full scale frequency of

500kHz.

4.6

This pin is the output stage of the operational amplifier.

During V/F operation, a negative going ramp signal is

available at this pin. In the F/V mode, a voltage

proportional to the frequency input is generated.

4.7

This pin is the non-inverting input of the operational

amplifier. The low frequency set point is determined by

adjusting the voltage at this pin.

2002 Microchip Technology Inc.

Freq/2 Out

Output Common

Amplifier Out

Zero Adjust

BIAS

can be reduced to 20kΩ, which will

= 100kΩ ±10%, unless otherwise

, sets the bias

BIAS

will

4.8

The inverting input of the operational amplifier and the

summing junction when connected in the V/F mode. An

input current of 10µA is specified, but an over range

current up to 50µA can be used without detrimental

effect to the circuit operation. I

junction of an operational amplifier. Voltage sources

cannot be attached directly, but must be buffered by

external resistors.

4.9

A reference voltage from either a precision source, or

the V

TC9400 is dependent on the voltage regulation and

temperature characteristics of the reference circuitry.

Since the TC9400 is a charge balancing V/F converter,

the reference current will be equal to the input current.

For this reason, the DC impedance of the reference

voltage source must be kept low enough to prevent lin-

earity errors. For linearity of 0.01%, a reference imped-

ance of 200W or less is recommended. A 0.1µF bypass

capacitor should be connected from V

4.10

The charging current for C

pin. When the Op Amp output reaches the threshold

level, this pin is internally connected to the reference

voltage and a charge, equal to V

from the integrator capacitor. After about 3µsec, this pin

is internally connected to the summing junction of the

Op Amp to discharge C

ing ensures that the reference voltage is not directly

applied to the summing junction.

TC9400/9401/9402

supply is applied to this pin. Accuracy of the

REF

Out

REF

. Break-before-make switch-

REF

is supplied through this

REF

connects the summing

x C

DS21483B-page 9

REF

to ground.

, is removed

TC9401 Microchip Technology, TC9401 Datasheet - Page 9

TC9401

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