TC9402CPD Microchip Technology, TC9402CPD Datasheet - Page 8

TC9402CPD

Manufacturer Part Number

TC9402CPD

Description

IC V-FREQ/FREQ-V CONV 14DIP

Manufacturer

Microchip Technology

Type

Volt to Freq & Freq to Voltr

Datasheets

1.TC9402CPD.pdf (28 pages)

2.TC9402CPD.pdf (20 pages)

3.TC9402CPD.pdf (24 pages)

Specifications of TC9402CPD

Package / Case

14-DIP (0.300", 7.62mm)

Frequency - Max

100kHz

Full Scale

±100ppm/°C

Linearity

±0.25%

Mounting Type

Through Hole

Supply Voltage (max)

15 V

Supply Voltage (min)

8 V

Maximum Operating Temperature

70 C

Minimum Operating Temperature

0 C

Dual Supply Voltage

+/- 5 V

Full Scale Frequency

100 KHz

Linearity Error

+/- 0.5 % FSR

Maximum Dual Supply Voltage

+/- 7.5 V

Minimum Dual Supply Voltage

+/- 4 V

Mounting Style

Through Hole

Operating Supply Voltage

9 V or 12 V

Frequency

100kHz

Full Scale Range

1Hz To 100kHz

Linearity %

0.25%

Supply Voltage Range

Â± 4V To Â± 7.5V

Digital Ic Case Style

DIP

No. Of Pins

Frequency Max

100kHz

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

158-1142
158-1142

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TC9400/9401/9402

3.2

The TC9400 output can be measured in the time

domain as well as the frequency domain. Some micro-

computers, for example, have extensive timing capabil-

ity, but limited counter capability. Also, the response

time of a time domain measurement is only the period

between two output pulses, while the frequency mea-

surement must accumulate pulses during the entire

counter time-base period.

Time measurements can be made from either the

TC9400's PULSE FREQ OUT output, or from the

FREQ/2 OUT output. The FREQ/2 OUT output

changes state on the rising edge of PULSE FREQ

OUT, so FREQ/2 OUT is a symmetrical square wave at

one-half the pulse output frequency. Timing measure-

ments can, therefore, be made between successive

PULSE FREQ OUT pulses, or while FREQ/2 OUT is

high (or low).

FIGURE 4-1:

DS21483B-page 8

Voltage-to-Time Measurements

Amp Out

OUT

Notes: 1. To adjust F

OUTPUT WAVEFORMS

2. To adjust F

3. To increase F

4. For high performance applications, use high stability components for R

resistors and glass capacitors). Also, separate output ground (Pin 9) from input ground (Pin 6).

1/f

MIN

MAX

OUT

, set V

3µsec

Typ.

, set V

MAX

to 100kHz, change C

= 10mV and adjust the 50kΩ offset for 10Hz output.

= 10V and adjust R

REF

4.0

4.1

In the V/F mode, this input is connected to the AMPLI-

FIER OUT output (Pin 12) and triggers a 3µsec pulse

when the input voltage passes through its threshold. In

the F/V mode, the input frequency is applied to this

input.

The nominal threshold of the detector is half way

between the power supplies, or (V

The TC9400's charge balancing V/F technique is not

dependent on a precision comparator threshold,

because the threshold only sets the lower limit of the

Op Amp output. The Op Amp's peak-to-peak output

swing, which determines the frequency, is only

influenced by external capacitors and by V

4.2

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

vides a pulse waveform whose frequency is propor-

tional to the input voltage. This output requires a pull-

up resistor and interfaces directly with MOS, CMOS,

and TTL logic (see Figure 4-1).

or V

to 2pF and C

REF

for 10kHz output.

PIN FUNCTIONS

Threshold Detector Input

Pulse Freq Out

INT

to 75pF.

, C

REF

2002 Microchip Technology Inc.

, V

REF

(metal film

REF

+ V

REF

INT

)/2 ±400mV.

REF

TC9402CPD Microchip Technology, TC9402CPD Datasheet - Page 8

TC9402CPD

Specifications of TC9402CPD

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