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Texas Instruments IFC1 Digit Driver Chip

Features

When Sinclair Radionics Ltd launched in August 1974 with the Sinclair Scientific a highly unusual 12-function calculator, it relied on three custom-specific Integrated Circuits (ICs) to optimize for both its size and manufacturing costs:

TMC0805 - Custom-specific single-chip calculator circuit
IFC1 - Full-custom 7-channel digit driver
IFC2 - Full-custom DC/DC converter and 2-channel digit driver

QUICK-LINK to Display Drivers.

Family Members and Applications

Full-custom Design for Sinclair Scientific

Technical Specifications

Item Min Typ Max Unit Comments
VCC   6.0   V  
VDD -10.5 -9.5   V  
IL   35 50 mA VI=6.0 V, VO=3.5 V

Applications Information

GENERAL INFORMATION

The applications information is based on the reverse-engineering of a Sinclair Scientific calculator utilizing a TMC0805 single-chip calculator circuit in concert with an IFC1 7-digit display driver, an IFC2 DC/DC Converter with 2-digit display driver and a 9-Digit 7-Segment LED display module manufactured by Bowmar Ali. We started off with the Assembly Instructions of the calculator, but ended up analyzing every detail of the circuitry with an oscilloscope to fully understand the brainchild of Sir Clive Sinclair († September 16, 2021)

DRIVER CHARACTERISTICS

The Sinclair Scientific is using three different voltage levels for its electronics and with the TMC0805 manufactured in a PMOS process, it needs to supply negative voltages VDD (-9.5 V) and VGG (-15.0 V) with respect to the most positive VSS (0 V) rail. The IFC1 and IFC2 chips on the other hand are manufactured in a bipolar process and their supply voltage VCC (6 V) needs to be the most positive voltage with respect to its GND pin. The engineers at Sinclair simply connected the positive battery terminal with VSS of the PMOS chip and VCC of the bipolar chips. The negative battery terminal is connected to the GND pin of the bipolar chips, with the IFC2 generating the negative VDD and VGG voltages of the PMOS chip.

To optimize operating time of battery-powered calculators using LED displays, it is common practice to drive the LED chips from the battery voltage. The 9-digit LED display of the Sinclair Scientific is using common cathode LED chips with the TMC0605 driving the segments directly and the IFC1 and IFC2 switching the corresponding digits to the negative battery terminal. To limit the operating current of the LED chips, one can either use resistors in series with the segments or the digits. Sinclair is making use of the sequential scanning of the digit drivers and decided to use only one resistor with 100 Ohm between the GND pin of the IFC1 chip and the negative battery terminal, effectively limiting the digit current to about 35 mA peak current. The IFC1 integrates seven NPN bipolar junction transistors (BJTs) in common-emitter topology with the base of the transistors directly connected to input pins and each complemented with a pull-down resistor to VDD to allow the scanning of the keyboard matrix of the calculator.

Technology

The IFC1 was manufactured in a 10 um metal gate Bipolar process (metal width = 0.4 mil / 10 um, metal spacing = 0.4 mil / 10 um).

The die size of the IFC1 is approximately 70 mils * 40 mils / 1.7 mm * 1.0 mm.

Packaging

The IFC1 uses a standard 0.3” wide 16-pin DIP (Dual In-line Package with a 0.1” / 2.54 mm lead pitch).

Pin Configuration

Pin IO Function Pin IO Function
1 I Digit input 1 16 O Digit output 1
2 I Digit input 2 15 O Digit output 2
3 I Digit input 3 14 O Digit output 3
4 I Digit input 4 13 O Digit output 4
5 I Digit input 5 12 O Digit output 5
6 I Digit input 6 11 O Digit output 6
7 I Digit input 7 10 O Digit output 7
8 V GND 9 V VDD


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If you have additions to the above datasheet please email: joerg@datamath.org.

© Joerg Woerner, September 02, 2024. No reprints without written permission.