Calculators

Type	In	Out	Type	TI calculators	BP
AC9100	120V	8.0V 160mA	DC	TI-2500 Version 1
AC9110	120V	7.5V 325mA	AC	TI-2500 Version 2
AC9120	120V	6.9V 200mA	DC	TI-2510, (TI-2500 Version 3, TI-2500B, TI-2550 using 4*AA alkaline)
AC9130	120V	8.2V 225mA or 6.9V 100mA	AC	TI-2500 Version 3, TI-2500B, TI-2500-II SR-10, SR-11, SR-50, SR-50A, SR-51, SR-51A, SR-52, SR-56, TI-2550, TI-2550 II	3*AA NiCd, BP1, BP1A, BP2, BP3
AC9130A	120V	5.6V 200mA	AC	SR-16, SR-50A, SR-51A, SR-52, SR-56, TI-2550 II, TI-2550 III	3*AA NiCd, BP1, BP1A, BP2, BP3
AC9130SW	120/240V	8.4V 225mA	AC	TI-2500 Version 3, TI-2500B, TI-2500-II SR-10, SR-11, SR-50, SR-50A, SR-51, SR-51A, SR-52, SR-56, TI-2550, TI-2550 II, TI-2550 III	3*AA NiCd, BP1, BP1A, BP2, BP3
AC9131	120V	3.3V 500mA	AC	TI-1600, TI-1650, TI-1680, SR-51-II, TI-57 (1977), TI-58, TI-58C, TI-59 1976-1977: SR-40, TI-30, TI-31, BA	BP1, BP1A, BP5, BP6, RK1
AC9131A	240V	5.0V 250mA	AC	TI-1600, TI-1650, TI-1680, SR-51-II, TI-57 (1977), TI-58, TI-58C, TI-59 1976-1977: SR-40, TI-30, TI-31, BA	BP1, BP1A, BP5, BP6, RK1
AC9132	120V	5.7V 240mA	AC	TI-1680, TI-51-III, TI-55, TI-57 (1978), TI-41, TI-42 MBA, MBA 1978-1981: SR-40, TI-15, TI-30, TI-31, TI-33, TI-45, BA, BA1, Money Manager, Programmer	BP7, BP8, RK2
AC9132A	240V	7.0V 200mA	AC	TI-1680, TI-51-III, TI-55, TI-57 (1978), TI-41, TI-42 MBA, MBA 1978-1981: SR-40, TI-15, TI-30, TI-31, TI-33, TI-45, BA, BA1, Money Manager, Programmer	BP7, BP8, RK2
AC9133	120V	5.7V 240mA	AC	TI-88	BP88
AC9140	120V	6.0V 175mA 6.9V 100mA	AC	TI-1500
AC9150	120V	8.0V 100mA	AC	TI-150
AC9160				Exactra 22, Exactra 23
AC9170	120V	11.0V 140mA	DC	TI-5050
AC9171	120V	12.5V 265mA	AC	TI-5050M, TI-5100, TI-5200
AC9172	120V	12.5V 265mA	AC	TI-5025
AC9175	120V	6.0V 500mA	DC	TI-5000, TI-5005 (II), TI-5006, TI-5006II, TI-5008, TI-5019, TI-5024, TI-5027 (II), TI-5029, TI-5030, TI-5030 II, TI-5032, TI-5032 SVC, TI-5033 (II), TI-5033 SV, TI-5035 (II), TI-5048, TI-5128
AC9180	120V	9.5V 50mA 9.0V 10mA	DC	SR-16-II, TI-1000, TI-1025, TI-1050, TI-12xx, TI-14xx	n.a.
AC9182	120V	8.3V 10mA	DC	TI-30
AC9199	120V	6.0V 285mA	DC	TI Language Teacher, Speak & Spell series
AC9200	115/230V	8.0V 100mA	AC	TI-2500 Version 3 SR-10, SR-11, SR-16, SR-50, SR-51	3*AA NiCd, BP1
AC9201	120V	6.0V 350mA	DC	CC-40, PC-200, PC-324, TI-5010, TI-5024, TI-5029, ViewScreen
AC9201E	220V	6.0V 350mA	DC	CC-40, PC-200, C-324, TI-5010, TI-5024, TI-5029, ViewScreen
AC9203	120V	9.0V 700mA	DC	HX-1000, HX-3100
AC9211U	100-240V	5.0V 1000mA	DC	HTI-Nspire CX, TI-84 PLUS C S.E.
AC9222	120/240V	5.8V 1.2A	DC	SR-22	BP200
AC9250	120V	6.0V 500mA	DC	TI-5006II, TI-5019, TI-5032 SVC
AC9350	120V	6.0V 500mA	DC	TI-5006II, TI-5019, TI-5032 SVC, TI-5033 SV
AC9400	120V	6.0V 500mA	DC	TI-5006II, TI-5019, TI-5032 SVC, TI-5033 SV
AC9401	120V	t.b.d.	DC	HX-1010
AC9460	120/240V	6.0V 500mA	DC	Vocaid
AC9610	120/240V	21.0V 2150mA	AC	HX-5102
AC9470	120/240V	5.5V 300mA	DC	TI-5027 II
AC9900			AC	SR-10, SR-11, SR-16, SR-50, SR-51	3*AA NiCd, BP1
Type C	220-240V			TI-2500 Version 2, TI-2550 (Remark: Maybe switched to 125V)
AC9900/A	220V	8V 50mA	DC	SR-16-II, TI-1000, TI-1025, TI-1050, TI-12xx, TI-14xx	n.a.
AC9900/B	220V	10.0V 170mA	AC	SR-50A, SR-51A, SR-52, SR-56	BP1, BP1A
AC9900/C	220V	6.0V 175mA	AC	TI-1500
AC9900/E	220V	7.0V 170mA	AC	TI-2500 Version 3, TI-2500B, TI-2500-II SR-10, SR-11, SR-50, SR-50A, SR-51, SR-51A, SR-52, SR-56, TI-2550 II, TI 2550 III	3*AA NiCd, BP1, BP1A, BP2, BP3
AC9900/G	220V	12.5V 265mA	AC	TI-5050M, TI-5100, TI-5200
AC9900/H AC9900/Ht	220V	6.2V 200mA	AC	TI-1600, TI-1650, TI-2550-IV, SR-51-II, TI-57 (1977), TI-58, TI-58C, TI-59 1976-1977: SR-40, TI-30, TI-31, BA	??, BP1A, BP4, BP5, BP6, RK1
AC9900/R	220V	8.5V 120mA	AC	TI-51-III, TI-55, TI-57 (1978), TI-41, TI-42 MBA, MBA 1978-1981: SR-40, TI-15, TI-30, TI-31, TI-33, TI-45, BA, BA1, Money Manager, Programmer	BP7, BP8, RK2, RK3
AC9900/T				TI-5140, TI-5142
AC9900/T2	220V	7.0V 200mA	AC	TI-5120, TI-5130, TI-5142-III
AC9900/Z1				TI-5008
AC9900/Z3	220V	6.0V 350mA	DC	TI-5010, TI-5024, TI-5029
AC9920	120/220V	6.0V 2000mA	DC	TI-Presenter
AC9930	120/220V	6.0V 2000mA	DC	TI-Presenter
AC9940	120/220V	6.0V 4000mA	DC	TI-Nspire Docking Station, Charging Bay
DC9105	13.5V	5.5V 300mA	DC	SR-52, TI-58, TI-59	BP1, BP1A
DC9900/H	12-28V	6.1V 240mA	DC	TI-58, TI-59	BP1, BP1A

with permission of the author www.datamath.org

Battery

Name	Type	Voltage	Capacity	Height	Diameter	Weight	Alternatives
AAAA	Alkaline	1.5 V	595 mAh	42.5 mm	8.3 mm	6.0 grams	MN2500
AAA	Alkaline	1.5 V	1100 mAh	44.5 mm	10.5 mm	11.5 grams	LR03, AM4, MN2400
AA	Alkaline	1.5 V	2600 mAh	50.5 mm	14.5 mm	23.0 grams	LR06, AM3, MN1500
C	Alkaline	1.5 V	7800 mAh	50.0 mm	26.2 mm	61 grams	LR14, AM2, MN1400
D	Alkaline	1.5 V	16500 mAh	61.5 mm	34.2 mm	134 grams	LR20, AM1, MN1300
N	Alkaline	1.5 V	1000 mAh	30.2 mm	12.0 mm	11.0 grams	LR1, AM5, MN1900
9-Volt	Alkaline	9.0 V	500 mAh	48.5 mm	27*18 mm	46 grams	6LR61, AM6, MN1604

LR41	Alkaline	1.5 V	35 mAh	3.6 mm	7.9 mm	1.0 grams	Ucar 192, G3A
LR43	Alkaline	1.5 V	80 mAh	4.2 mm	11.6 mm	1.6 grams	Ucar 186, RW 84
LR44	Alkaline	1.5 V	115 mAh	5.4 mm	11.6 mm	1.8 grams	Ucar 157/A, RW 82
LR54	Alkaline	1.5 V	50 mAh	3.0 mm	11.6 mm	1.1 grams	LR1130, Ucar 189, RW 89
LR55	Alkaline	1.5 V	25 mAh	2.1 mm	11.6 mm	0.8 grams	LR1120, Ucar 191, RW 80

SR41	Silver-oxide	1.5 V	42 mAh	3.6 mm	7.9 mm	1.0 grams	S736, V392
SR44	Silver-oxide	1.5 V	175 mAh	5.4 mm	11.6 mm	1.8 grams	S76, V357
SR55	Silver-oxide	1.5 V	67 mAh	2.1 mm	11.6 mm	0.8 grams	SR1120

CR1216	Lithium	3.0 V	25 mAh	1.6 mm	12.5 mm	0.7 grams	BR1216
CR1220	Lithium	3.0 V	35 mAh	2.0 mm	12.5 mm	0.8 grams
CR1616	Lithium	3.0 V	55 mAh	1.6 mm	16.0 mm	1.2 grams	BR1616
CR1620	Lithium	3.0 V	60 mAh	2.0 mm	16.0 mm	1.2 grams	DL1620
CR2016	Lithium	3.0 V	90 mAh	1.6 mm	20.0 mm	1.8 grams	DL2016, LF-1/4V
CR2025	Lithium	3.0 V	170 mAh	2.5 mm	20.0 mm	2.5 grams	DL2025
CR2032	Lithium	3.0 V	230 mAh	3.2 mm	20.0 mm	3.0 grams	DL2032, LF-1/2V
CR2320	Lithium	3.0 V	135 mAh	2.0 mm	23.0 mm	2.9 grams	BR2320
CR2420	Lithium	3.0 V	135 mAh	2.0 mm	24.0 mm	3.0 grams	LF-1/3W
CR2430	Lithium	3.0 V	280 mAh	3.0 mm	24.5 mm	4.0 grams	DL2430, LF-1/2W
CR2450	Lithium	3.0 V	560 mAh	5.0 mm	24.5 mm	6.2 grams

LR1	Alkaline	1.5 V	mAh	12.0 mm	30.2 mm	10.0 grams	MN9100, LR1A

with permission of the author www.datamath.org

Type	Cells	Voltage	TI calculators	Charger
BP1	3*AA	3.6V	SR-50, SR-51	AC9200 AC9900
BP1A	3*AA	3.6V	BP1 could be replaced with BP1A SR-50A, SR51A, SR52, SR56 TI-58, TI-58C, TI-59	AC9130 AC9900/E AC9131 AC9900/H
BP2	2*AA	2.4V	TI-2550 II	AC9130 AC9900/E
BP3	1*AA	1.2V	TI-2550 III	AC9130A AC9900/E
BP4	2*AA	2.4V	TI-2550-IV	AC9900/H
BP5	1*AA	9V	1976-1977: SR-40, TI-30, TI-31, BA RK1 (Rechargeable Kit introduced 1976)	AC9131 AC9900/H
BP6	2*AA	2.4V	SR-51-II, TI-57 (1977)	AC9131 AC9900/H
BP7	2*AA	9V	TI-51-III, TI-55, TI-57 (1978), TI-42 MBA, MBA	AC9132 AC9900/R
BP8	2*AA	9V	1978-1981: SR-40, TI-15, TI-30, TI-31, TI-33, TI-41, TI-45, BA, BA1, Money Manager, Programmer RK2 (Rechargeable Kit introduced 1976), RK3 (European Version)	AC9132 AC9900/R
BP9	2*AA	9V	TI-45
BP88	1*AA	1.2V	TI-2550-IV	AC9133
BP200	4*D	4.8V	SR-22	AC9222

with permission of the author www.datamath.org

Battery Cover

Description: New battery pack with black 3D printed cover, but you can ask for a color other than black!

There are two types of batteries, the 600 or 800 mA NI-CD and the 1800 mA NI-MH.

It is important to use a 2 cent coin or similar, in order to reduce the risk of breaking the hook tab!

Calculators that use these Battery Packs are:

BP1 ( SR-50, SR-51)
BP1A ( SR-50A, SR51A, SR52, SR56, TI-58, TI-58C, TI-59 )

Battery Cover

Description: Our cover can be used to replace BP-6, BP-7, BP-8, BP-9 battery packs, but using a 9 volt battery. It was designed and built to give new life to your beloved calculators! The new cover is built with the non-toxic material called PLA using 3D printing, the color is black, but you can have other colors such as red and transparent. It can be used with the following calculators:

(SR-51-II, TI-57(1977), TI-51-III, TI-55, TI-57 (1978), TI-42 MBA, MBA)

( TI-15, TI-30, TI-31, TI-33, TI-41, TI-45, BA, BA1, Money Manager,TI- Programmer, TI-45)

The most important thing for inserting and removing the cover from the compartment from the calculator is the use of a 2 cent coin. VERY IMPORTANT not to break the hook tab!

Description: This circuit with its 3d printed case, can be used to replace the original BP7 - BP8 - BP9.

Calculators that use these Battery Packs are

BP7 ( TI-51-III, TI-55, TI-57, TI-42 MBA, MBA ) BP8 ( SR-40, TI-15, TI-30, TI-31, TI-33, TI-41, TI-45, BA, BA1, Money Manager, Programmer ) BP9 ( TI-45 )The calculators listed were produced in the 70s and 80s, almost all of their accumulators have become defective. Texas Instruments has called their BP (Battery Packs) leak-proof. In fact all the liquid that comes out of the cells does not come out of the BP, but remaining inside destroys all the contents !

The two batteries used in the older BPs are AA size and have a nominal capacity of around 500mAh. The new BP uses a 3,7 volt 1000 mah LI-PO battery, and a PCB that performs a specific check / recharge for this type of battery, there is also a STEP-UP circuit necessary to supply a voltage of 9 volts for the operation of the Calculators.

What will come to you if you decide to take it

1- PCB and Cover 3D, with all components

2- Li-PO 800/1000 mah battery

3- USB cable for charging

4 - adapter cable for BP7

5- instructions necessary for the replacement.

To recharge the new BP you can use the USB cable supplied, unfortunately for the size I could not insert a micro-USB connector, but make a cable with a specific connector.
One last thing, the circuit is equipped with a trimmer that allows you to vary the output voltage for other applications between 4.5 volts and 25 volts with a maximum current of 500 mah, but ATTENTION any variation could destroy the load downstream of the new BP.

Troubleshooting and Info

When the LEDs are ON and flashing at the same time -> The battery is probably disconnected

When the LEDs are OFF at the same time -> The input voltage is too low or the PCB is faulty

When the red LED is ON -> The battery is charging

When the green LED is ON -> The battery is charged

Type	Year	Function	Calculator	Comments

First TI chip set produced for Canon Inc. This set of 3 Integrated Circuits was streamlined to the Pocketronic with its thermal printer. These chips are manufactured in a "state of the art" 10-micron 1-metal PMOS process and using Dual-Inline Ceramic or Plastic (DIC/DIP) packages with 40 pins and 28 pins
TMC1730	1970		Canon Pocketronic (Monroe 10)
TMC1731
TMC1732

Second TI chip set produced for Canon Inc. The second chipset supported displays instead the thermal printer of the Pocketronic. Two different Data Chips are known, the Arithmetic Chip was later replaced. These chips are manufactured in a "state of the art" 10-micron 1-metal PMOS process and using Dual-Inline-Ceramic or Plastic (DIC/DIP) cases with 40 pins and 28 pins.
TMC1733	1971	Data Chip	Canon L121 (Monroe 620)
TMC1733A	1971	Data Chip	Canon L120
TMC1734	1971	Data Chip	Canon L160 (Monroe 610)
TMC1737	1971	Data Chip	Canon L100
TMC1753	1971	Timing Chip	Canon Canola L121
TMC1754	1971	Entry Chip	Canon Canola L121
TMC1755	1971	Arithmetic Chip
TMC1807	1971	Arithmetic Chip	Canon Canola L121	Replaced the TMC1755

Third TI chip set produced for Canon Inc. This chipset consists of 6 Integrated Circuits, one of them was later replaced. These chips are manufactured in a "state of the art" 10-micron 1-metal PMOS process and using Dual-Inline-Plastic (DIP) cases with 40 pins.
TMC1761	1971		Canon L163 (Monroe 650)
TMC1763	1971		Canon L163, L167P
TMC1764	1971		Canon L163
TMC1765	1971		Canon L163, L167P
TMC1765	1971		Canon L167P
TMC1767	1971		Canon L163
TMC1768	1971		Canon L163
TMC1793	1971		Canon L163	Replaced the TMC1768
TMC1812	1971		Canon L167P
TMC1816	1971		Canon L167P

TMC1771SC
TMC1772SC
TMC1773SC
Forth TI chip set produced for Canon Inc.Compared with the previous chipsets the trend goes toward single-chip solutions. Both chips contain together 51213-bit read-only program memory, a 1916-bit random-access memory and support calculators with up to 14 digits display width. These chips are manufactured in a "state of the art" 10-micron 1-metal PMOS process and using Dual-Inline- Plastic (DIP) cases with 40 pins.
TMC1824	1971	Data Chip	Canon L100A, LE-10
TMC1825	1971	ROM Chip

First TI chip set produced for Sumlock-Compucorp.This large chipset was developed by the engineers of Compucorp and produced by AMI. Later TI qualified as a second source to AMI. The chipset forms one of the first programmable calculators, the Compucorp 324G Scientist.
TMC1864	1971	TCL08 - Display	Compucorp 324G	Replaced by TMC1884
TMC1866	1971	TCL06 - Data		Processor board
TMC1867	1971	TCL05 - Data		Processor board
TMC1868	1971	TCL01 - Printer	Compucorp 325	Printer driver
TMC1869	1971	TCL02 - Keyboard		Keyboard-scanning electronic
TMC1870	1971	TCL04 - Data		Processor board
TMC1871	1971	TCL03 - ROM		Interface to RAM and ROM
TMC1872	1971	TCL07 - Data		Processor board
TMC1884	1971	TCL08 - Display		Display multiplexer

First TI chip set produced for Olivetti.This rare chipset was found in October 2010 by fellow collector Miguel from Argentina in an Olivetti Logos 270 desktop printing calculator. The keyboard of the calculator sports unusual [*=] [/=] [Q], [P], [R] keys and [S] and [T]memories. These chips are manufactured in a "state of the art" 10-micron 1-metal PMOS process and using Dual-Inline- Plastic (DIP) cases with 28 pins (TMC1829) and 16 pins (TMC1827, TMC1828).
TMC1827	1972	not yet discovered	Olivetti Logos 270
TMC1828	1972	not yet discovered
TMC1829	1972	not yet discovered

Second TI chip set produced for Olivetti.This rare chipset was found recently in an Olivetti 55 desktop printing calculator from the Logos 50/60 series. The keyboard of the calculator sports additional [00][000] keys, unusual [*=] [/=] keys and a memory. These chips are manufactured in a "state of the art" 10-micron 1-metal PMOS process and using Dual-Inline- Plastic (DIP) cases with 28 pins (TMC1876) and 16 pins (TMC1828, TMC1877).
TMC1828	1972	not yet discovered	Olivetti 55 , Logos 59
TMC1876	1972	not yet discovered	Logos 59
TMC1877	1972	not yet discovered
TMC1878	1972		Logos 59
TMCX01NC	1977		Logos 40
TMCX02NC	1977		Logos 40
TMCX03NC	1977		Logos 40

First commercial available single chip calculator.The first commercial available "calculator-on-a-chip" was an MOS integrated circuit announced by TI in September 17, 1971. Find the original press release here. The chip contains 3520-bit read-only program memory, a 182-bit serial-access memory and a decimal arithmetic logic unit as well as control, timing, and output decoders but no drivers for the display. This results in an overall complexity of roughly 5,000 transistors. The typical supply voltage of this chip is ±7.2 V at roughly 15 mA power consumption. These chips are manufactured in a "state of the art" 10-micron 1-metal PMOS process and using Dual-Inline- Plastic (DIP) cases with 28 pins. It took about a year till the first copy of the original design appeared. US based company MOSTEK introduced the MK5020P December, 1972.
TMS1802	1971	Single chip, Basic	unknown	Renamed to TMS0102
TMS1875	1972	Single chip, Basic	Heathkit IC-2008	Renamed to ???
TMS0101	1972	Single chip, Basic	Canon Palmtronic LE-83, LE-80, LE-84, TOKO mini 8	+,-,= keys, 8 digits
TMS0102	1972	Single chip, Basic	Columbia II	[+=],[-=] keys, 8 digits
TMS0103	1972	Single chip, Basic	Bowmar 901B, 905, Summit K16, Commodore 301, C110, US-8,Minuteman 2, Eldorado 8C, 8K , Montgomery Ward TXI8642A, K83, K86,Singer Friden 123,Advance mini executive, Sinclair Executive, Radio Shack EC-200	[+=],[-=] keys, 8 digits
TMS0105	1972	Single chip, Basic	Canon L800, XAM TE-8000, Aristo M27,Crown CL-90K,Toshiba BC-801B,Mayfair Sound Products 2W01B,I.T.C. K-80M, Victor 85"Tallymate",MBO Junior	[+=],[-=] keys, 8 digits
TMS0106	1972	Single chip, Basic	TI-3500, Canon L100S, Busicom LE-100A,TESAK 10D, TESAK syrtis 10P,Inno Hit K-10LS, IME mod.400, Nuova elettronica 35/36	[+=],[-=] keys, 10 digits, Panaplex
TMS0107	1972	Single chip, Basic	Bowmar 901D, TX1000, K106, A100	[+=],[-=] keys, 10 digits
TMS0109	1972	Single chip, Basic	TI-3000	[+=],[-=] keys, 8 digits, Panaplex
TMS0110	1972	Single chip, Basic	TI-2500 Preseries	+,-,= keys, 8 digits
TMS0111	1972	Single chip, Basic	Minimath prototypes	+,-,= keys, 8 digits, LCD
TMS0112	1972	Single chip, Basic	Toshiba BC-0802	[+=],-,= keys, 8 digits
TMS0115	1972	Single chip, Basic	Panasonic JE-850U	+,-,= keys, 8 digits
TMS0118	1972	Single chip, Basic		+,-,= keys, 10 digits
TMS0119	1972	Single chip, Basic	TI-2500, Heathkit IC-2108	+,-,= keys, 8 digits
TMS0708	1973	Single chip, Basic	Canon Palmtronic LE-85	+,-,= keys, 8 digits
First commercial available single chip scientific calculator.The original single-chip calculator was limited to basic calculators. The TMS0120 added to the 8 digit mantissa a two digit exponent display but still uses external display drivers.
TMS0120	1972	Single chip, Sci	SR-10, EC-425, P300	+,-,= keys, x2,1/x,sqr(x), 8+2 digits

Later single chip calculators.There are some later single-chip calculators using external drivers for the display. One calculator, the Exactra 20 used only digit drivers, the segment drivers of the calculators were connected directly to the display. The TMS0135 e.g. contains 8,192 Bits ROM (Read-only program Memory), a 256 Bit RAM (Random-access Memory) and a decimal arithmetic logic unit as well as control, timing, and output decoders and the segment drivers for the display. This gives an overall complexity of roughly 8800 transistors.
TMS0121	1973	Single chip, Basic	Olympia CD101	+,-,= keys, 10 digits
TMS0122	1974	Single chip, Basic	Olympia CD80, Panasonic JE-851	+,-,= keys, 8 digits
TMS0123	1973	Single chip, Basic		[+=],[-=] keys, x2, sqr(x), 10 digits
TMS0125	1973	Single chip, Basic	Canon LE-100	+,-,= keys, 10 digits
TMS0126	1973	Single chip, Basic	Canon LE-80R, Commodore 3101, Kings Point EC-8413 , Casio ROOT-8, Casio root 8S	[+=],[-=] keys, x2, sqr(x), 8 digits
TMS0127	1973	Single chip, Basic	Bowmar MX-80, K-106P	[+=],[-=] keys, %, 10 digits
TMS0128	1973	Single chip, Basic	Canon LE-82, JCE Percent, montgomery ward p8p,Kessel P408,Advance 80, JC penney MM3R, Minuteman 3	[+=],[-=] keys, %, 8 digits
TMS0130	1973	Single chip, Basic	Panasonic JE-860U	+,-,= keys, sqr(x), PI
TMS0131	1973	Single chip, Basic	Panasonic JE-855U
TMS0132	1974	Single chip, Basic	APF Mark VII, Craig 4510, EMG hunor 88	[+=],- keys, Memory, 8 digits
TMS0135	1974	Single chip, Basic	Exactra 20, Exactra TI-2000	+,-,= keys, 8 digits
TMS0137	1974	Single chip, Basic	Sears 8	+,-,= keys, %, 8 digits
TMS0137	1974	Single chip, Basic	Canon Pocketronic II	uses Printer chip TMS0641

Chip set for 12 digit calculators. One limitation of the 28-pin packages of the TMS01xx was the maximum number of 10 or 8+2 digits for the results. For desktop calculators Texas Instruments developed chipsets with 40-pin packages for the integrated circuits.
TMS0201	1973	Data chip, Basic	TI-4000, Canon L121F, L1210	12 digits, Panaplex
TMS0202	1973	Data chip, Sci	SR-20	10+2 digits, Panaplex
TMS0203	1973	Data chip, Basic	TI-450, TI-500, TI-620, TEAL 6121D	12 digits, Panaplex
TMS0206	1973	Data chip	Olympia CD401A
TMS0207	1973	Data chip, HEX	SR-22	10+2 digits, Panaplex
TMS0221	1974	Not yet discovered	TI-500	Used together with TMS0203
TMS0301	1973	ROM chip, Basic	TI-4000	[+=],[-=] keys, Memory, K
TMS0302	1973	ROM chip, Basic	Canon L121F	[+=],[-=] keys, Memory, K
TMS0304	1973	ROM chip, Sci	SR-20	+,-,= keys, x2,1/x,sqr(x),x!,PI,e
TMS0305	1974	ROM chip, Basic	TI-500	Printing only
TMS0306	1974	ROM chip, Basic	TI-620	Printing only
TMS0318	1973	ROM chip, Basic	Olympia CD401A
TMS0320	1973	ROM chip, Basic	TEAL 6121D	[+=],[-=] keys, Memory, EX, K,sqr(x)
TMC0321	1973	Two chip, Basic	Canon L1210	[+=],[-=] keys, Memory, K,sqr(x)
TMC0322	1973	Two chip, Basic	TI-450	[+=],[-=] keys, Memory, K
TMC0323	1973	ROM chip, HEX	SR-22
TMC0404	1973	2nd ROM chip, HEX	SR-22
TMC0406	1974	2nd ROM chip	TI-620	Printing only
TMC1073NL			Aristo R4000
Chip set for scientifical calculators. With the TMC0500 building blocks Texas Instruments created a novel architecture for scalable scientific calculators. The architecture used minimum a 2-chip design with the Arithmetic chip and the SCOM (scanning read only memory) but was expandable to a maximum of 8 SCOMs, additional RAM as program memory for programmable calculators, additional RAM for general purpose registers and even a chip driving a printer borrowed from the TMS0200 family. Most scientific and programmable calculators manufactured by Texas Instruments between the years 1974 and 1982 (SR-50..TI-59) are based on these chips.
TMC0501	1974	ARITH	SR-50(A),51(A),51-II,52,56, 60, TI-5230	10+2 digits
TMC0501E	1979	Enhanced ARITH	SR-60A, TI-58(C),TI-59, PTK-1096 = TI59	10+2 digits
TMC0521	1974	SCOM	SR-50, SR-50A	Basic system: TMC0501 + TMC0521
TMC0522	1974	SCOM1	SR-51, SR-51A	Adds statistical functions (ROM) and conversion constants
TMC0523	1974	SCOM2	SR-51, SR-51A	Adds statistical functions (ROM) and conversion constants
TMC0524	1975	SCOM	SR-52
TMC0526	1976	SCOM	SR-60
TMC0531	1976	SCOM	SR-50A	Differences to TMC0521 not known
TMC0532	1976	SCOM1	SR-51A	Found in late models
TMC0533	1976	SCOM2	SR-51A	Found in late models
TMC0534	1976	SCOM	SR-52	Differences to TMC0524 not known
TMC0537	1976	SCOM1	SR-56	Adds statistical functions (ROM) and programmability
TMC0538	1976	SCOM2	SR-56	Adds statistical functions (ROM) and programmability
TMC0561	1975	BROM	SR-52, PC-100A
TMC0562	1975	BROM	SR-52	2 chips piggy back in SR-52
TMC0569	1975	BROM	PC-100A
TMC0571	1977	BROM	TI-58, TI-59	see TMC0582
TMC0572	1978	BROM	TI-5230	see TMC0587
TMC0573	1979	BROM	TI-58C	see TMC0580
TMC0580 /CD2400	1979	DSCOM	TI-58C	Instead of TMC0582 on TI-58/59
TMC0580 /CD2401	1979	DSCOM	TI-58C	Instead of TMC0583 on TI-58/59
TMC0581	1976	DSCOM	SR-51-II	combines TMC0522 + TMC0523
TMC0582	1977	DSCOM	TI-58, TI-59, TI-58C (1), SR-60(A)	2 DSCOM + BROM adds to 6k*13 instruction memory for the TI-59
TMC0583	1977	DSCOM	TI-58, TI-59, TI-58C (1), SR-60(A)
TMC0584	1977	DSCOM	SR-60(A)	Enhanced instructions of SR-60(A)
TMC0587	1978	DSCOM	TI-5230	2 DSCOM + BROM adds to 6k*13 instruction memory for the TI-5230
TMC0588	1978	DSCOM	TI-5230
TMC0591	1979		TI-58C	Interface to S-RAM
TMC0594	1977	MAGNETIC I/O	TI-59 only
TMC0595	1975	MAGNETIC I/O	SR-52	adds programmability to TMC0524
TMC0596	1977	MAGNETIC I/O	SR-60A
TMC0598	1977	PRAM	TI-58 (2), TI-59 (4), TI-5230 (7)	240*8 RAM (240 program steps or 30 data registers) each
TMC0599	1975	PRAM	SR-52 (2), SR-56 (1), SR-60A (13)	240*8 RAM (240 program steps or 30 data registers) each
TMC0251	1976	Printer	PC-100A,B,C	Drives PC-100 printer
TMC0253	1976	Display	SR-60(A)	Drives alphanumeric display
TMC0254	1976	Printer	SR-60(A)	Drives thermal printer
TMC0255	1978	Printer	TI-5230	Drives thermal printer
TMC0261	1976	Display, Printer	TI-5040	Single-chip printing calculator
TMC0262	1978	Display, Printer	TI-5025	Single-chip printing calculator
TMC0263	1980	Display, Printer	TI-5135	Single-chip printing calculator
TMC0540	1977	PROM -Customer-	TI-58(C), TI-59	List of all known ROM-Codes here
TMC0541	1977	PROM -1-	TI-58(C), TI-59	Master Library
TMC0542	1977	PROM -2-	TI-58(C), TI-59	Applied Statistics
TMC0543	1977	PROM -3-	TI-58(C), TI-59	Real Estate Investment
TMC0544	1977	PROM -4-	TI-58(C), TI-59	Surveying
TMC0545	1977	PROM -5-	TI-58(C), TI-59	Marine Navigation
TMC0546	1977	PROM -6-	TI-58(C), TI-59	Aviation
TMC0547	1977	PROM -7-	TI-58(C), TI-59	Leisure Library
TMC0548	1977	PROM -8-	TI-58(C), TI-59	Securities Analysis
TMC0549	1977	PROM -9-	TI-58(C), TI-59	Business Decisions
TMC0550	1977	PROM -10-	TI-58(C), TI-59	Math Utilities
TMC0551	1977	PROM -11-	TI-58(C), TI-59	Electrical Engineering
TMC0553	1977	PROM -SE-	TI-58(C), TI-59	Structural Engineering
TMC0554	1977	PROM -12-	TI-58(C), TI-59	Agriculture
TMC0555	1977	PROM -13-	TI-58(C), TI-59	RPN Simulator

Second generation single chip calculators. Texas Instruments introduced with the TMS0600 and TMS0800 single-chip calculator circuits about two years after the introduction of the TMS0100 family a two-tier approach: The TMS0600 adding enhancements like a memory register and additional functionality while keeping the need for external segment- and digit-drivers and the TMS0800 for cost sensitive applications, reducing the feature set but integrating both a clock driver and segment drivers.
TMS0601	1974	Single chip, Basic	TI-2550, montgomery ward p200, P8m	+,-,= keys, Memory, 8 digits
TMS0602	1973	Single chip, Sci	SR-11	+,-,= keys, x2,1/x,sqr(x),PI
TMC0605	1974	Single chip, Basic	Canon LE-81M	+,-,= keys, ±%, sqr(x), 8 digits
TMS0801	1973	Single chip, Basic	Canon LE-84, Sinclair Cambridge	+,-,= keys, Constant, 8 digits
TMS0803	1974	Single chip, Basic	TI-1500, Kovac 808, HORNET mini 816	+,-,= keys, %, 8 digits
TMC0805	1974	Single chip, Sci	Sinclair Scientific	UPN, log, sin..., 8 digits
TMS0806	1974	Single chip, Basic	Exactra 19	+,-,= keys, 6 (8) digits
TMS0807	1974	Single chip, Basic	Canon LE-85	[+=],[-=] keys, sqr(x) 8 digits
TMS0833	1974		MBO Expert
TMS0851	1974		Privileg 804D. IME minime 3
TMS0852	1974	Single chip, Basic	TI-150	+,-,= keys, %, 8 digits
TMS0855	1975	Single chip, Basic	Canon LD-80, Canon LD-81, Silver-Reed 8, Santronic 80S	+,-,= keys, %, sqr(x)
TMS0893	1976?	Single chip, Basic	Tabulex alpha
TMC1007NL	1976	Single chip	TSI speech+
TMC1170NL/ZA0541	1977	rom chip	Kosmos 1
TMC1172NL	1977	rom chip	Kosmos 2
TMS1470NL/MP1133	1979	rom chip	Kosmos Astro
Third generation single chip calculators. With the TMS1001 Texas Instruments introduced the first member of the famous TMS1000 Microcomputer family. The chip contains a microcomputer complete with a program ROM having 1,024 8-bit Words; a temporary storage RAM; input (from keypad); output (to control keypad scan and LED display); and an oscillator (clock). The TMS1000 chip was designed to span a range of hand-held calculator products (from four-function up through simple memory calculators). Since the chip had to be customized with the ROM program appropriate to a product, other programmable features were included to improve the chip's flexibility. Today we know 13 different chips used in TI calculators. These chips vary in implementation technology, number of I/O lines, display drive, amount of ROM (up to 26.6k Bits) and amount of RAM (up to 1,280 Bits). Calculator applications range from simple four-function calculators to the 50-step programmable TI-57. As of mid 1979, over 35 million TMS1000 chips were deployed in both calculator and non-calculator applications, establishing the TMS1000 as the computer architecture with the largest installed base. The internal clock rate varies from 200 to 450 kHz, depending on technology. Die photos courtesy of Sean Riddle. RAM-size determination courtesy of Ken Shirriff.
TMS1001	1974	Single chip, Sci	SR-16	Full scientific (w/o trig), 8+2 digits
TMC1014/1214			TI-5050
ZA0535	1975	Single chip, Sci	Canon F-2	Full scientific, 8+2 digits
ZA0536	1976	Single chip	Canon T-8	Full scientific, 8+2 digits,sexagesimal
TMS1016	1975	Single chip, Sci	SR-16-II, Concept III	Full scientific (w/o trig), 8+2 digits
TMS1042		Single chip, Basic	Olympia CD45A, Canon LD-8Ms, Canon Palmtronic 8M
TMS1043	1975	Single chip, Basic	TI-2550-III	+,-,= keys, %, x2,1/x,sqr(x)
TMS1044	1975		Unisonic 1040, Bonark 121, Victor 104R
TMS1045		Single chip, Basic	Toshiba BC-8111B, BC-8112SL, Canon L813, F-31,Toshiba BC-8018b	+,-,= keys, %, x2,1/x,sqr(x)
TMS1071	1975	Single chip, Basic	TI-2550-II, Homeland 8105	+,-,= keys, %, x2,1/x,sqr(x)
TMS1073	1976	Single chip, Basic	TI-5100, Toshiba BC-1015
TMS1079	1979	Single chip, Basic	Canon MD-8	Two-line display, 8+8 digits
TMS1115	1976	Single chip, Printing	TI-5050M
TMS1273	1976	Single chip, Basic	Toshiba BC1270	[+=],[-=] keys, Memory, K,sqr(x), 12 digits
TMC1278	1976	Single chip, Basic	TI-5200
TMC1309	1977	Single chip, Printing	TI-5220	Drives thermal printhead
TMC1312	1977	Single chip, Printing	TI-5225	Drives thermal printhead
TMC1372	1977	Single chip, Printing	TI-5220, TI-5225 (ZA0396)	Drives VF-Display
TMC1376	1977	Single chip, Printing	TI-5230	Drives VF-Display
ZA0552	1976	Single chip, Basic	Canon L1010, LD-10M	10 digits
ZA0571	1976	Single chip, Basic	Adman L-0830T, IME minime 5	%, K, 8 digits
TMS0952	1975	Single chip, Basic	TI-1200, TI-1250, western auto (Citation, Electronic wizard)	+,-,= keys, Memory, sign + 8 digits
TMS0954	1976	Single chip, Basic	TI-1260	+,-,= keys, Memory, conversions
`TMS0972`	`1976`		`TI-1250,` `National 835A, Binatone memory, RJP3000, Bhosei 3000, radioshack EC-201, Texet 2001, Texet 880, Zayre Concept II, LJG 880, Privileg 842M, Conic EL-601, Sears 82, Agilis 808`	`8 digits, minor changes to TMS0952`
TMS0974	1976	Single chip, Basic	TI-1270	+,-,= keys, x2,1/x,sqr(x),PI, 8 digits
TMS0975	1976	Single chip, Toy	Little Professor
TMC0907	1977	Toy	Wiz-A-Tron, Cyclon Battlestar
TMC0921	1977	Single chip, Basic	TI-1050, Western Auto Citation (66-4986-7)	+,-,= keys, Memory, srq(x), %
TMC0923	1977	Single chip, Basic	TI-1025, Hema 1025, Western Auto Citation	+,-,= keys, Memory, %
TMC1981	1977	Single chip, Basic	TI-1680	uses TMC0999
TMC1982	1977	Toy	TI Dataman
TMC1983	1978	Single chip, Sci	TI-45	Full scientific, 8 (5+2) digits
TMC1984	1978	Toy	Spelling B (original)	uses TMC0272
TMC1986	1980	Toy	Math Marvel
TMC1991	1977	Single chip, Basic	TI-1000	+,-,= keys, %
TMC1992	1977	Single chip, Basic	TI-1000 Version 2	+,-,= keys, %
TMC0980	1978	Custom design	Goulds Pumpulator	ROM code CD9801
TMC0981	1976	Single chip, Sci	TI-30, SR-40, Privileg SR35nc	Full scientific, 8 (5+2) digits
TMC0982	1976	Single chip, Fin	Business Analyst	Full financial, 8 (5+2) digits
TMC0983	1978	Single chip, HEX	TI Programmer	HEX calculator, ROM code ZA0675
TMC0984	1976	Single chip, Sci	TI-33	Full scientific, 3 mem., 8 (5+2) digits
TMC0985	1977	Single chip, Sci	OEM, TEXET 2001 scinetific	Full scientific, no AOS, 8 (5+2) digits
TMC1501	1977	Single chip, Sci	TI-57 Programmable, Hiradastechnika PTK1050 = TI57, radio shack EC-4000	Full scientific, programm.,8+2 digits
TMC1081	1978		Panasonic JE170U
TMC1502	1977	Single chip, Fin	The MBA	Full financial, huge mem.,8+2 digits
TMC1503	1977	Single chip, Sci	TI-55,PTK-1030 = SR-51 II	Full scientific, huge mem.,8+2 digits
TMC0271	1978	Toy	Speak & Spell (1978)
TMC0272	1978	Toy	Spelling B (UK)	Uses TMC1984
TMC0273	1980	Toy	Mr. Challenger
TMC0274	1978	Toy	Spelling B
TMC0270/CD2702	1980	Toy	La dictee magique
TMC0270/CD2705	1980	Toy	Speak & Read
TMC0270/CD2708	1980	Toy	Speak & Math (UK)
TMS1000 / MP0271	1984	Toy	Mr MUS-I-CAL, Monkey see
First generation C-MOS single chip calculators. In 1978 Texas Instruments introduced the first CMOS calculator chips based on the TMS1000 Microcomputer family. The TP0320 architecture is similar to the TMC0980 chips introduced two years earlier for the TI-30 calculator. The main difference – beside the manufacturing process – is the permanent connection of the internal memory (1264 Bits RAM + 64 Bits Display RAM) to the supply voltage. This feature allowed the „Constant Memory“ found on the calculators based on the TP0320 family like the TI-50 or TI-53. Even after you turn off the calculator its user memory is stored inside the chip. The supply current is low enough to buffer the memory more than a year from two small button cells. The program memory with 2k9 Bits ROM allowed the conversion of most calculating features known from Majestic calculators (Scientific, Statistical and Financial calculator or even Flight computers). Die photo courtesy of Sean Riddle. RAM-size determination courtesy of Ken Shirriff. Remember that the first LCD-calculators sold by Texas Instruments used foreign calculator chips manufactured by Toshiba. Find more information about them here. Together with the CMOS process the employees of Texas Instruments changed the nomenclature of the chips. Instead of the leading characters TMS (Texas MOS Standard) or TMC (Texas MOS Custom) the abbreviation TP appeared for the new device families. These Microcomputers got both ROM programmability and Gate programmability (e.g. segment decoder). The derivatives were either numbered like TP0320, TP0321... or got a CD (Custom Design) number, e.g. CD3202.
TP0320/CD3201	1978	Single chip, Fin	TI Investment Analyst	Full financial, 8 (5+2) digits
TP0320/CD3202	1980	Single chip, Fin	TI-30-II, TI-30 LCD	Full scientific, 8 (5+2) digits
TP0321	1978	Single chip, Sci	TI-50	Full scientific, 8 (5+2) digits
TP0322	1978	Single chip, Fin	TI Business Analyst II	Full financial, 8 (5+2) digits
TP0323	1978	Single chip, Sci	TI-53	Full scientific, 8 (5+2) digits
TP0324	1978	Single chip, Sci	TI-35	Full scientific, 8 (5+2) digits
TP0325	1979	Single chip, Fin	Business Card	Full financial, 8 (5+2) digits
TP0326	1979	Single chip, Sci	TI-38, TI-20	TI-35 w/o statistics
TP0327	1979	Single chip, Sci	Sharp EL-503	Reduced keyboard, 8 (5+2) digits
TP0328	1980	Flight Computer	Jeppesen avstar	Conversions and calculations
Simplified C-MOS single chip calculators. During the calculator war (about 1976 to 1978) a lot of customized chip architectures appeared even from Texas Instruments. Instead using the TMS1000 device with the large ROM and RAM amount some "area optimized“ architectures appeared. Don’t forget that in the early days of IC-Technology the yield of designs with some thousands of transistors was poor! The TP0310 introduced in the year 1978 based on the serial architecture of the TMS0920 optimized for the TMS1050 calculator. This was the most compact design with only 5119 Bits ROM and 405 Bits RAM using a one-bit serial adder. Only few calculators make use of the TP0310 devices. Die photo courtesy of Sean Riddle. RAM-size determination courtesy of Ken Shirriff.
TP0311	1978	Single chip, Basic	TI-1030	+,-,= keys, Memory, srq(x), %
TP0314	1978	Single chip, Basic	TI-1070	+,-,= keys, Memory, x2,1/x,sqr(x),PI
Enhanced C-MOS calculator chips. The TP0320 architecture with only 28-pin housings, 2k9 Bits ROM and (12+1)64 Bits RAM limited calculator designs to simple Scientific (TI-50), Statistical (TI-35) and Financial (Business Analyst II) calculators driving displays with only 8 digits (or 5 digits + 2 exponents) resolution. The "programmable" TI-53 stored as much as 32 key entries in the memory, that’s it!Texas Instruments introduced with the TP0455 architecture a new design to overcome these limitations. It is related to the TMS1000 architecture but added time-keeping capabilities, a more flexible display driver and a different RAM architecture with 1284 Bits capacity. The TP0455 is still gate-programmable. The first use of the TP0455 was the CD4501 design found in the Time Card introduced end of the year 1981. The TI-55 II demonstrated the flexibility of the TP0455 architecture, two chips formed a powerful Master-Slave architecture. The Master uses a 40-pin housing and scans the keyboard, drives a huge display with 8+2 digits and performs the math capabilities. The Slave in the well known 28-pin housing doubles the memory capacity of the calculator. This allows e.g. 56 program steps compared to the 32 steps of the TI-53.The TP0455 design was soon replaced with the TP0456 and most designs were converted. The CD numbers were incremented 50 units to distinguish the difference between TP0455 (e.g. CD4515) and TP0456 e.g. CD4565*). The TP0456 seems to be upward compatible to the TP0320, we know with the TI-30 LCD and TI-30-II calculators using either the CD3202 or CD4565 design. Die photo courtesy of Sean Riddle. RAM-size determination courtesy of Ken Shirriff.
TP0455/CD4501C	1981	Single chip, Basic	Time Card	not yet discovered
TP0455/CD4505A	1981	Dual chip, Sci	TI-55 II Slave	Full scientific, 56 steps
TP0455/CD4506A	1981	Dual chip, Sci	TI-55 II Master	Full scientific, 56 steps
TP0455/CD4507B	1981	Single chip, Sci	TI-35, TI-40	Replaces TP0324
TP0455/CD4508C	1982	Single chip, Clock	TI-2000 (Time Manager)	Full Alarm Clock
TP0455/CD4509B	1982	Single chip	TI-1890 (Converter)	US/ISO converter
TP0455/CD4511A	1982	Single chip	CA-800	Cassette Interface for TI-88
TP0455/CD4512	1982	Dual chip	AC-II Master	not yet discovered
TP0455/CD4513	1982	Dual chip	AC-II Slave	not yet discovered
TP0455/CD4514B	1982	Single chip	TI-2001GTI	Car computer
TP0455/CD4515	1982	Single chip, Sci	TI-30 LCD	Replaces TP0320-2
TP0455/CD4518	1982	Single chip	CMF	not yet discovered
TP0455/CD4519	1982	Single chip	LCD Programmer	base-8 and base-16 calculator
TP0456/CD4551	1981	Dual chip, Sci	TI-54 Master	Scientific with complex numbers
TP0456/CD4553	1983	Dual chip, Fin	BA-54, BA-55	Full financial, 40 steps
TP0456/CD4554	1983	Dual chip, Fin	BA-54, BA-55	Full financial, 40 steps
TP0456/CD4555	1981	Dual chip, Sci	TI-54, TI-55II, TI-57 LCD Slave	Full scientific
TP0456/CD4556	1981	Dual chip, Sci	TI-55 II Master	Full scientific, 56 steps
TP0456/CD4557	1982	Single chip, Sci	TI-35	Replaces TP0324
TP0456/CD4557A	1986	Single chip, Sci	TI-30 Stat	Replaces TP0324
TP0456/CD4558A	1982	Single chip, Clock	TI-2000 (Time Manager)	Full Alarm Clock
TP0456/CD4559A	1982	Single chip	TI-1890 (Converter)	US/ISO converter
TP0456/CD4560	1982	Single chip	TI-??	not yet discovered
TP0456/CD4561D	1982	Single chip	CA-800	Cassette Interface for TI-88
TP0456/CD4562	1982	Dual chip	AC-II Master	not yet discovered
TP0456/CD4563	1982	Dual chip	AC-II Slave	not yet discovered
TP0456/CD4564	1982	Single chip	TI-2001GTI	Car computer
TP0456/CD4565	1982	Single chip, Sci	TI-30 LCD, TI-30 III	Replaces TP0320-2
TP0456/CD4566	1982	Single chip	Microwave Controller	Oops
TP0456/CD4568	1982	Single chip	CMF	not yet discovered
TP0456/CD4569	1982	Single chip	LCD Programmer	base-8 and base-16 calculator
TP0456/CD4570	1982	Single chip	LCD Little Professor	Educational toy
TP0456/CD4571	1982	Single chip, Fin	BA-35	Full financial
TP0456/CD4572	1982	Dual chip, Sci	TI-57 LCD Master	Full scientific, 40 steps
TP0456/CD4573	1983	Dual chip	PC-200	Printer for TI-66 and BA-55
TP0456/CD4574	1983	Dual chip	PC-200	Printer for TI-66 and BA-55
TP0456/CD4614	1986	Dual chip, Sci	TI-60 Slave	Full scientific, 84 steps
TP0456/CD4616	1986	Single chip	MathStar	Educational toy
TP0456/CD4617	1987	Dual chip	TI Spelling B	Educational toy
TP0456/CD4618	1987	Dual chip	TI Spelling B	Educational toy
TP0456/CD4631	1989	Single chip	Math...ToGo!, Professor 1.2.3	Educational toy
TP0456/CD4632	1989	Single chip	Time...ToGo!, Professor Time	Educational toy
TP0456/CD4633	1989	Single chip	Words...ToGo!	Educational toy
TP0456/CD4634	1989	Single chip	Professor ABC	Educational toy
TP0458/CD4805	1987	Dual chip, Sci	TI-65 Slave	Full scientific, 100 steps, Timer
TP0458/CD4806	1987	Dual chip, Sci	TI-65 Master	Full scientific, 100 steps, Timer
TP0458/CD4808	1986	Dual chip, Sci	TI-30 Galaxy	Full scientific
TP0458/CD4810	1986	Dual chip, Sci	TI-62 Galaxy Master	Full scientific, 100 steps
TP0458/CD4811	1986	Dual chip, Sci	TI-62 Galaxy Slave	Full scientific, 100 steps
TP0458/CD4812	1987	Single chip, Fin	BA-III	Full financial
TP0458/CD4815	1986	Dual chip, Sci	TI-60 Master	Full scientific, 84 steps
TP0458/CD4816	1988	Single chip, Sci	Galaxy Junior	Educational calculator
Failed C-MOS single chip calculators
TP0485/CD2901	1982	Multi chip, Sci	TI-88	Timekeeping, Key Scan and I/O Controller Revisions -, C, H, K observed
TP0485/CD2902	1982	Multi chip, Sci	TI-88	Master Controller Revisions -, C, H, K observed
TP0485/CD2903	1982	Multi chip, Sci	TI-88	Arithmetic Controller No revisions observed
TP0530	1982	Multi chip, Sci	TI-88	Generic designation for Memory chips
TP0531	1982	Multi chip, Sci	TI-88	Read/Write Memory (592 program steps or 74 data memories) Revisions -, A, B, C observed
TP0532/CD5402	1982	Multi chip, Sci	TI-88	Read Only Memory (7,500 program memories) Revisions -, B, C, E observed
TP0532/CD5403	1982	Multi chip, Sci	TI-88	CROM Read Only Memory (7,500 program steps) No revisions observed
display drivers
SN75491	1972	4 segment driver	TI-2500	Introduced with the TMS0102
SN75492	1972	6 digit driver	TI-2500	Introduced with the TMS0102
SN75493	1972	4 segment driver	SR-10	aka SN27422, SN27915
SN75494	1972	6 digit driver	SR-10	aka SN27423, SN27914
SN75497	1974	7 digit driver	SR-50	aka SN27882
SN75498	1974	9 digit driver	TI-2550-II
Clock Generation Chips and clock Buffer Chips. Some earlier calculators are using Integrated Circuits instead of discrete electronics to generate the single-phase or dual-phase clock signals of the calculator chips. Die photos courtesy of Sean Riddle.
SN97211	1975	192 kHz, opposite phases, TMC0500	SR-52	Ceramic resonator, 384 kHz
TP0190N	1975	CMOS Clock Buffer	SR-52	Unbuffered CD4011A @ 15.8V
TP0240,TP0300, TP0301,TP0355	1975	192 kHz, opposite phases, TI-58 227.5 kHz, opposite phases, TI-59	TI-58, TI-59	Ceramic resonator, 384 kHz or 455 kHz
DC/DC Converter Chips. Some earlier calculators are using DC/DC converters to generate the supply voltages of the calculator chips. Die photos courtesy of Sean Riddle.
SN77203	1980	1-cell, +3 V, -4 V, LBI, S_I/O	TI-88	Used with TI-88, CA-800, PC-800

further additions and changes are from www.facele.eu

with permission of the author www.datamath.org

Most collectors of early electronic calculators will sooner or later ask themselves: „How old is this piece of history in my hands“? The answer is quiet easy, in conjunction with the pictured albums here in the Datamath Calculator Museum you get a rough estimate of the timeframe each calculator was built. Some models had a very short lifetime, e.g. the rare SR-16 was manufactured between October 1974 and early 1975. Other calculators stayed longer, the famous TI-68 was introduced 1991 and was available in some countries till the year 2000. If you inspect the calculators manufactured by Texas Instruments carefully you will notice small numbers stamped with ink on the body shell, embossed in the plastic mold or printed on the license plate. These numbers look typically like 314, 2676 ATA or I1090. If you study this article carefully you’ll learn that the first calculator is a Datamath Version 2 manufactured April, 1973, the second calculator was produced in the Abilene, TX facility and the third is a modern, Taiwanese LCD calculator. Interested in getting more information?

• Search the numbers

Starting with the introduction of both the Datamath and the early Desktop calculators Texas Instruments used visible ink to stamp the manufacturing date on the back of the calculator housing using a 3-digit code. Unfortunately in most cases the ink got lost over the time on the polished surfaces of the early calculators. Later models like the TI-2550 or Exactra line used a structured surface and the ink is more durable. Some calculators like the SR-50 got the date code printed on hidden places like the internal plastic frame below the battery pack. If you can read only parts of the numbers you should open the calculator and search the manufacturing date on the integrated circuits to limit the possible date range. Calculators introduced in the year 1976 or later use another coding with 4-digits embossed into the mold of the rear case shell. This method was durable, in some cases the readability is limited due to bad adjusted temperature or pressure of the tooling. With the TI-1750, the first Texas Instruments calculator produced in Japan another coding scheme using 3-digits was introduced. These early LCD-calculators with their metal housing got small adhesive license plates carrying the model designation, serial number, date and origin of manufacturing. Later far East products use a novel 4-digit coding for the date of manufacturing.

• Decipher the code

You should be able to decipher 5 different coding schemes of the manufacturing date to cover all calculators and related products manufactured by Texas Instruments. In addition you get in most cases the information of the place of manufacturing.

3-digit date code

Early calculators introduced between the years 1972 and 1975 make use of a three digit code to define the week and year of manufacturing.

Example: 314 reads as 31^th week of the year 1974

You notice immediately that this code was not Y2K compliant and there was a need for another coding scheme.

The origin of the calculator is usually Dallas, TX if not otherwise noted. Only the TI-2500 / TI-3500 was reported to be produced in Italy, UK and Spain and the SR-10 / SR-11 in Brazil and Spain.

3-digit "Early Far East" date code

Calculators produced in Far East and Souteast Asia during the late 70s and early 80s use a three digit code to define the month and last digit of the year of manufacturing

Example: 104 reads as October 1984

The manufacturer of the calculator is coded with one letter and the origin written in plain words. A table is given with the 4-digit "far East" code.

4-digit date code

Calculators introduced later than 1975 and not produced in Asia use a four digit code to define the week and year of manufacturing.

Example: 2676 reads as 26^th week of the year 1976

The origin of the calculator is coded with three letters and / or written in plain words.

Code	Origin	Plant
ATA	USA	Abilene, TX
ATD	USA	Austin, TX
DTA	USA	Dallas, TX
LTA	USA	Lubbock, TX
MTA	USA	Midland, TX
STA	USA	Sherman, TX
	Argentine	Buenos Aires
CIB	Brazil	Campinas
	El Salvadore	San Salvadore
ACH	Holland	Almelo
HK	Hong Kong
RCI	Italy	Rieti Cittaducale
PII	Philippines
	Portugal	Oporto
MCS	Spain
RCT	Turkey
P	United Kingdom	Plymouth

4-digit "Far East" date code

Calculators produced in Far East and Southeast Asia use a four digit code to define the month and year of manufacturing.

Example: 1090 reads as October 1990

The manufacturer of the calculator is coded with one letter and the origin written in plain words.

Code	Maunfacturer	Origin
A	unknown	China
C	Cal-Comp	(Taiwan), Thailand
C	Compal	Taiwan, China
G	Kinpo	China
I	Inventec	Taiwan, Malaysia
K	Kinpo	Taiwan
L	Kinpo	Philippines
L	Leo Electronics	Japan, China
N	Nam Tai	China
O	unknown	Thailand
P	Inventec Pudong	China
S	Inventec Shanghai	China
T	Toshiba	Japan
Z	Zeny	Taiwan, China

6-digit "European" date code

Calculators produced in Italy use sometimes a six digit code giving the day of production.

Example: RCI240595 reads as May 24, 1995

3-digit "European" date code

Both the Financial Investment Analyst and Fixed Income Securities calculators manufactured between 1988 and 1991 in Italy use a three digit code to define the week and year of manufacturing.

Example: 439 reads as 43^th week 1989

The years 1990 and 1991 are encoded with the digit 0 resp. 1.

3¼-character "Radio Shack" date code

Calculators manufactured for Radio Shack in the Seventies, Eighties, and Nineties usually sport a 3-character or 4-character date code.

Example: 1A5 reads as 1^st month 1985 or 1995. The character A is just serving as a separator between month and year.

4-digit "Integrated Circuit" date code

Most Integrated Circuits (ICs) manufactured by Texas Instruments or Toshiba use a four digit code to define the week and year of manufacturing.

Example: 7424 reads as 24^th week of the year 1974

The origin of the IC is written in plain words. Early Texas Instruments ICs manufactured by Texas Instruments using a metal–oxide–semiconductor (MOS) process, use a TMS designation and we learned from the TMS1000 and TMS7000 documentation the TI Standard Symbolization: TMX, TMP, and TMS are representative of the evolutionary stages of product development from engineering prototypes through fully qualified production devices:

• TMSxxxx Experimental devices that are not representative of the final device's electrical specifications and has not completed reliability verification
• TMPxxxx Final silicon die that conforms to the device's electrical specifications but has not completed quality and reliability verification
• TMSxxxx Fully qualified production devices

Devices with on-chip ROM (Read-only Memory) usually include a Cxxxx or CDxxxx reference and might have two different © information:

• ©19xxTI Texas Instruments Microcode copyright
• ©19xxTI Texas copyright of ROM Code

3-character "Japan Integrated Circuit" date code

Most integrated circuits (IC‘s) manufactured by Hitachi and some other Japanese companies use a three digit/letter/digit code to define the year, month and week of manufacturing.

Example: 3B4 reads as 4^th week within February of the year 1973

2^nd Character	Month
A	January
B	February
C	March
D	April
E	May
F	June
G	July
H	August
J	September
K	October
L	November
M	December

The origin of the IC is written in plain words.

4-character "Sharp Integrated Circuit" date code

Most integrated circuits (IC‘s) manufactured by Sharp in the 1980s use a four character code to define the year, month and week of manufacturing.

• First Character: Identification Number
• Second Character: Last digit of production year
• Third Character: Production month
• Forth Character: Production week

Example: 538A reads as 1^st week within August of the year 1983

3^rd Character	Month
1	January
2	February
3	March
4	April
5	May
6	June
7	July
8	August
9	September
X	October
Y	November
Z	December

4^th Character	Week
A	1^st Week of Month
B	2^nd Week of Month
C	3^rd Week of Month
D	4^th Week of Month
E	5^th Week of Month

with permission of the author www.datamath.org

TYPE	YEAR	MARKED	TOY DESCRIPTION
TMS0970	1977	CP0904A	Milton Bradley Comp IV
TMS0970	1977	MP0905B	Parker Brothers Codename Sector
TMS1000	1980	MP0027	24 Melody USA
TMS1000	1978	MP3310	24 Melody Italy
TMS1000	1983	MP3318	24 Melody France
TMS1000	1983	MP3228	24 Melody Germany
TMS1000	1981	MP1137	30 Tune Melody
TMS1000	1978	MP0057	APH Student Speech+ (same ROM contents as TSI Speech+?)
TMS1000	1979	MP0154	Fonas 2 Player Baseball
TMS1000	1979	MP0158	Entex Soccer (6003)
TMS1000	1979	MP0163	A-One LSI Match Number/LJN Electronic Concentration
TMS1000	1980	MP0166	A-One Arrange Ball/LJN Computer Impulse/Tandy Zingo (model 60-2123)
TMS1000	1979	MP0168	Conic Multisport/Tandy Sports Arena (model 60-2158)
TMS1000	1979	MP0170	Conic Football
TMS1000	1980	MP0220	Tomy Teacher
TMS1000	1980	MP0230	Entex Blast It (6015)
TMS1000	1982	MP0271	Radio Shack Monkey See
TMS1000	1979	MP0907	Conic Basketball (101-006)
TMS1000	1979	MP0908	Conic Electronic I.Q.
TMS1000	1979	MP0910	Conic Basketball (101-003)
TMS1000	1979	MP0914	Entex Baseball 1
TMS1000	1979	MP0915	Bandai System Control Car: Cheetah/The Incredible Brain Buggy
TMS1000	1979	MP0919	Tiger Copy Cat (model 7-520)
TMS1000	1979	MP0920	Entex Space Battle (6004)
TMS1000	1979	MP0923	Entex Baseball 2 (6002)
TMS1100	1979	MP1022	Texas Instruments unknown thermostat
TMS1100	1980	MP1030	APF Mathemagician
TMS1100	198?	MP1072	unknown device
TMS1470	1979	MP1133	Kosmos Astro
TMS1100	1980	MP1180	Tomy Power House Pinball
TMS1100	1979	MP1181	Conic Football 2
TMS1100	1980	MP1183	E.R.S. Superbowl XV Football/Tandy Championship Football (model 60-2151)
TMS1100	1979	MP1185	Fonas 3-in-1: Football Basketball Soccer
TMS1100	1980	MP1193	Tandy Championship Football (model 60-2150)
TMS1100	1980	MP1204	Entex Baseball 3 (6007)
TMS1100	1980	MP1209	U.S. Games Space Cruiser/Strategy Football
TMS1100	1980	MP1211/COPL44	Entex Space Invader (6012)
TMS1100	1980		Tomy Atomic Pinball
TMS1100	1980	MP1215	Tiger Playmaker
TMS1100	1980	MP1218	Entex Basketball 2 (6010)
TMS1100	1980	MP1219	U.S. Games Super Sports-4
TMS1100	1980	MP1221	Entex Raise The Devil (6011)
TMS1100	1983	MP1231	Tandy 3-in-1 Sports Arena (model 60-2178)
TMS1100	1982	MP1296	Entex Black Knight Pinball (6081)
TMS1100	1981	MP1311	Bandai TC7: Air Traffic Control
TMS1100	1983	MP1312	Gakken FX-Micom R-165/Radio Shack Science Fair Microcomputer Trainer
TMS1100	1985	MP1359	Capsela CRC2000
TMS1170	1980	MP1525	Coleco Head to Head: Electronic Baseball
TMS1370	1982	MP1604	Gakken Invader 2000/Tandy Cosmic Fire Away 3000
TMS1700	1981	MP1801	Tiger Ditto/Tandy Pocket Repeat (model 60-2152)
TMS1370	1979	MP2105	Gakken / Entex Poker (6005)
TMS1370	1980	MP2110	Gakken Invader/Tandy Fire Away
TMS1370	1981	MP2139	Gakken Galaxy Invader 1000/Tandy Cosmic 1000 Fire Away
TMS1040	1979	MP2726	Tomy Break Up
TMS1070	1980	MP2788	Bandai Flight Time (? note: VFD-capable)
TMS1730	1989	MP3005	Tiger Copy Cat (model 7-522)
TMS1000	1978	MP3200	Parker Brothers Electronic Master Mind
TMS1000	1977	MP3201	Milton Bradley Electronic Battleship (1977 model 4750A)
TMS1000	1979	MP3206	Concept 2000 Mr MUS-I-CAL
TMS1000	1977	MP3208	Milton Bradley Electronic Battleship (1977 model 4750B)
TMS1000	1978	MP3226	Miltom Bradley Simon (REV.A)
TMS1000	1979	MP3232	Fonas 2 Player Baseball (no "MP" on chip label)
TMS1000	1979	MP3260	Electroplay Quickfire
TMS1000	1979	MP3300	Milton Bradley Simon (Rev F)
TMS1000	1979	MP3301A	Milton Bradley Big Trak
TMS1000	1979	MP3320A	Coleco Head to Head: Electronic Basketball
TMS1000	1979	MP3321A	Coleco Head to Head: Electronic Hockey
TMS1200	1979	MP3352	Tiger Sub Wars (model 7-490)
TMS1000	1981	M32001	Coleco Quiz Wiz Challenger (note: MP3398 MP3399 M3200x?)
TMS1000	1990	M32018	unknown device (have decap/dump)
TMS1000	1983	M32045B	Chrysler Electronic Voice Alert (11-function) -> eva.cpp
TMS1100	1978	MP3403	Marx Electronic Bowling
TMS1100	1978	MP3404	Merlin Parker Brothers
TMS1100	1985		Capsela CRC2000
TMS1100	1979	MP3405	Coleco Amaze-A-Tron
TMS1100	1979	MP3407	General Electric The Great Awakening (model 7-4880)
TMS1100	1978	MP3415	Coleco Electronic Quarterback
TMS1100	1979	MP3435	Coleco Zodiac
TMS1100	1979	MP3438A	Kenner Star Wars Electronic Battle Command
TMS1100	1979	MP3450A	Microvision cartridge: Block Buster
TMS1100	1979	MP3454	Microvision cartridge: Star Trek Phaser Strike
TMS1100	1980	MP3455	Microvision cartridge: Pinball
TMS1100	1979	MP3457	Microvision cartridge: Mindbuster
TMS1100	1979	MP3460	Coleco Head to Head: Electronic Football
TMS1100	1979	MP3474	Microvision cartridge: Vegas Slots
TMS1100	1979	MP3475	Microvision cartridge: Bowling
TMS1100	1979	MP3476	Milton Bradley Super Simon
TMS1100	1980	MP3479	Microvision cartridge: Baseball
TMS1100	1979	MP3481	Microvision cartridge: Connect Four
TMS1100	1980	MP3489	Kenner Live Action Football
TMS1100	1979	MP3491	Mattel Thoroughbred Horse Race Analyzer
TMS1100	1980	MP3493	Milton Bradley OMNI Entertainment System (1/2)
TMS1100	1980	MP3494	Milton Bradley OMNI Entertainment System (2/2)
TMS1100	1980	MP3496	Microvision cartridge: Sea Duel
TMS1100	1981	M34009	Microvision cartridge: Alien Raiders (note: MP3498 MP3499 M3400x..)
TMS1100	1980	@M34012	Mattel Dungeons & Dragons - Computer Labyrinth Game
TMS1100	1981	M34014	Coleco Bowlatronic
TMS1100	1981	M34017	Microvision cartridge: Cosmic Hunter
TMS1100	1981	M34018	Coleco Head to Head: Electronic Boxing
TMS1100	1982	M34038	Parker Brothers Lost Treasure
TMS1100	1982	M34047	Microvision cartridge: Super Blockbuster
TMS1100	1983	M34078A	Milton Bradley Electronic Arcade Mania
TMS1100	1985	M34137	Technasonic Weight Talker
TMS1000	1983	MP4486A	Vulcan XL 25
TMS0970	1979	MP6061	Texas Instruments Electronic Digital Thermostat (from patent the one in MAME didn't have a label)
TMS0980	1979	MP6100A	Ideal Electronic Detective
TMS0980	1979	MP6101B	Parker Brothers Stop Thief
?	1982	MP6354	Tsukuda The Dracula (? note: 40-pin VFD-capable)
?	1983	MP6361	Defender Strikes (? note: VFD-capable)
TMS1400	1980	MP7302	Tiger Deluxe Football with Instant Replay
TMS1400	1982	MP7304	Tiger 7 in 1 Sports Stadium (model 7-555)
TMS1400	1980	MP7313	Parker Brothers Bank Shot
TMS1400	1980	MP7314	Parker Brothers Split Second
TMS1400	1985	MP7324	Tiger K28/Coleco Talking Teacher -> tispeak.cpp
TMS1400	1981	MP7332	Milton Bradley Dark Tower
TMS1400	1981	MP7334	Coleco Total Control 4
TMS1400	1982	MP7351	Parker Brothers Master Merlin
TMS1670	1980	MP7551	Entex Color Football 4 (6009)
TMS1670	1980	MPF553	Gakken/Entex Jackpot: Gin Rummy & Black Jack (6008) (note: assume F to be a misprint)
TMS1670	1981	MP7573	Entex Select-A-Game cartridge: Football 4 -> sag.cpp
TMS2370	1983	M30026	Yaesu FT-757 Display Unit part
TMS2670	1983	M95041	Tsukuda Game Pachinko (have decap missing MCU emulation)
TMS1000	1976	TMS1007	TSI Speech+ (S14002-A)
TMS1100	1981	CD7282SL	Tandy-12 (serial is similar to TI Speak & Spell series)
TMS-1955	1976		4 Ball & Paddle variants
TMS-1965	1976		6 Ball & Paddle variants
SN 76410N	1977		6 Ball & Paddle variants
SN 76423N	1976		Automatic random english, automatic serve, automatic upper/lower rebounds for Ball & Paddle games
SN 76424N	1976		System regulator and wall generator for color applications
SN 76425N	1976		System regulator, wall generator, horizontal/vertical sync generator (may be same as SN 94025N used by Magnavox)
SN 76426N	1976		Dual vharacter generator (may be same as SN 94026N used by Magnavox)
SN 76427N	1976		Wall and ball generator for Ball & Paddle games (may be same as SN 94027N used by Magnavox)
SN 76428N	1976		Hockey, Tennis and Handball game logic, and video summer (may be same as SN 94028N used by Magnavox)
SN 76430N	1976		Horizontal and vertical sync generated by counting-down from 3.58MHz clock, color generator, video summer (combines ball, paddle, wall, scores, etc.)
SN 76431N	1976		Position generator for two complex characters
SN 76432N	1976		Programmable ROM for three complex characters (Hockey, Tennis, Handball)
SN 76440N	1976		Space War game logic
SN 76442N	1976		Complex characters for Race Car, Rocket Ship and Universal Man
SN 76443N	1976		Complex characters for Flying Bird and Universal Man
SN 76444N	1976		Complex characters for Rocket Ship, Hockey and Tennis
SN 76445N	1976		Complex characters for Gunfighter and Universal Man
SN 76446N	1976		Complex characters for exploding rocket
SN 76449N	1976		Complex characters for exploding helicopter
SN 76460N	1976		Digital on-screen scoring generator (scores 0-20 and 'W' for winner)
SN 76462N	1976		Digital on-screen scoring generator (scores 0-18 only)
SN 76477N	1976		Programmable complex sound generator
SN 76483N	1976		Space War obstacles generator
SN 76484N	1976		Space War switching logic
SN 76499N	1976		2.045MHz clock output generated from 3.58MHz crystal input, color phase generator and video summer designed to interface with TMS 1955 or equivalent (GI AY-3-8500)
SN 94025N	1975	(612086)	Regulator, Sync and Wall Generator (Odyssey 100 and 200)
SN 94026N	1975	(612087)	Player Generator (Odyssey 100 and 200)
SN 94027N	1975	(612088)	Ball and Wall Generator (Odyssey 100 and 200)
SN 94028N	1975	(612089)	Video Summer and Logic (Odyssey 100 and 200)
SN 94029N	1975	(612090)	Scoring Generator (Odyssey 200)
SN 94069N	1976	(612109)	Color Generator (Odyssey 500)
SN 94092N	1979	(612108)	Score Generator (Odyssey 500)
SN 94093N	1976	(612101)	Character Controller (Odyssey 500)
SN 94192N	1976		Character Generator (Odyssey 500)
TMS3615NS	1981		Octave Multiple Tone Synthesizer 2 footage ( Italy )
TMS3617NS	1983		Octave Multiple Tone Synthesizer 6 footage ( Italy )
TMS3834NL	1976		Display clock with multiplexer nixie (Nuova Elettronica N° 45/46) with VFD ( N° 50/51)
TMS3874NL	1980		Display clock with multiplexer led (Nuova Elettronica N° 74)

Speech
Chips

Type	Year	Function	Product	Comments

First Voice Synthesis Processors (VSP)
TMS5100 (TMC0281)	1978	4-bit peripheral	Speak & Spell, Math, Read, Language Tutor	First VSP (TI internal name ‘0280’)
TMS5100A (TMC0281)	1980	4-bit peripheral	Speak & Spell line	Die shrink of TMS5100
TMS5110 (TMC0280/CD2801)	1980	4-bit peripheral	Speak & Spell line	New version of TMS5100, updated LPC table
TMS5110A (TMC0280/CD2801)	1981	4-bit peripheral	Speak & Spell line	Die shrink of TMS5110
TMS5110A (TMC0280/CD2802)	1981	4-bit peripheral	Touch & Tell	Different LPC table
TSP5110A (TMC0281/CD2801A)	1985	4-bit peripheral	Speak & Spell line
TMS5100
TMS5200 (TMS0285/CD2501E)	1981	8-bit FIFO		(TI internal name ‘0285’)
TMS5220 (CD2805E?)	1982	8-bit FIFO	Speak & Learn	Improved TMS5200, updated LPC table
TMS5220C	1983	8-bit FIFO		Enhanced TMS5220
TSP5220C	1985	8-bit FIFO		Identical with TMS5220C

First Voice Synthesis Memories (VSM)
TMS6100NL (TMC0350)	1978	128kBit	Speak & Spell	First VSM
TMS6125NL (TMC0355)	1978	16kBit	Spelling B
TMC0351	1978	128kBit	Speak & Spell (1978)	First VSM
TMC0352	1978	128kBit	Speak & Spell (1978)	Memory, 8 digits
TMC0350/CD2302	1978	128kBit	Speak & Spell Module	© 1978 Vowel Power
TMC0350/CD2305	1978	128kBit	Speak & Spell Module	© 1979 Super Stumpers 4-6
TMC0350/CD2307	1978	128kBit	Speak & Spell Module	© 1979 Super Stumpers 7-8
TMC0350/CD2308	1978	128kBit	Speak & Spell Module	© 1979 Basic Builders
TMC0350/CD2309	1978	128kBit	Speak & Spell Module	© 1979 Mighty Verbs
TMC0350/CD2310	1978	128kBit	Speak & Spell Module	© 1980 Homonym Heroes
TMC0350/CD2311	1979	128kBit	Language Tutor	© 1979 Spoken English
TMC0350/CD2312	1979	128kBit	Language Tutor	© 1979 Spoken English
TMC0350/CD2313	1979	128kBit	Language Tutor	© 1979 Spoken English
TMC0350/CD2314	1979	128kBit	Language Tutor	© 1979 Spoken English
TMC0350/CD2315	1979	128kBit	Language Tutor	© 1979 Spoken Spanish
TMC0350/CD2316	1979	128kBit	Language Tutor	© 1979 Spoken Spanish
TMC0350/CD2317	1979	128kBit	Language Tutor	© 1979 Spoken Spanish
TMC0350/CD2318	1979	128kBit	Language Tutor	© 1979 Spoken Spanish
TMC0350/CD2327	1979	128kBit	Language Tutor	© 1979 Spoken French
TMC0350/CD2328	1979	128kBit	Language Tutor	© 1979 Spoken French
TMC0350/CD2329	1979	128kBit	Language Tutor	© 1979 Spoken French
TMC0350/CD2330	1979	128kBit	Language Tutor	© 1979 Spoken French
TMC0350/CD2331	1979	128kBit	Language Tutor	© 1979 Spoken German
TMC0350/CD2332	1979	128kBit	Language Tutor	© 1979 Spoken German
TMC0350/CD2333	1979	128kBit	Language Tutor	© 1979 Spoken German
TMC0350/CD2334	1979	128kBit	Language Tutor	© 1979 Spoken German
TMC0350/CD2345	1980	128kBit	Buddy
TMC0350/CD2346	1980	128kBit	Buddy
TMC0350/CD2347	1980	128kBit	Speak & Spell Module	© 1980 Vowel Ventures
TMC0350/CD2348	1980	128kBit	Speak & Spell Module	© 1980 Noun Endings
TMC0350/CD2349	1980	128kBit	Speak & Spell Module	© 1980 Magnificent Modifiers
TMC0350/CD2350	1980	256kBit	Speak & Spell (1980)	Double VSM
TMC0350/CD2352	1980	256kBit	La Dictée Magique	Double VSM
TMC0350/CD2353	1981	256kBit	La Dictée Magique	© 1981 Les Mots de Base
TMC0350/CD2354	1982	256kBit	Speak & Spell Compact (1982)
TMC0350/CD2355	1981	256kBit	Touch & Tell Module	© 1981 Animal Friends
TMC0350/CD2360	1982	256kBit	Speak & Spell Module	© 1982 ET Fantasy Module
TMC0350/CD2361	1982	256kBit	Touch & Tell Module	© 1982 World of Transportation
TMC0350/CD2362	1982	256kBit	Touch & Tell Module	© 1982 Little Creatures
TMC0350/CD2363	1982	256kBit	Touch & Tell Module	© 1982 E.T.
TMC0350/CD2381	1986	256kBit	Speak & Math	Double VSM
TMC0350/CD2392	1980	256kBit	Speak & Math	Double VSM
TMC0350/CD2393	1980	256kBit	Speak & Math	Double VSM
TMC0350/CD2394	1980	256kBit	Speak & Read	Double VSM
TMC0350/CD2395	1980	256kBit	Speak & Read	Double VSM
TMC0350/CD2396	1980	256kBit	Speak & Read Module	© 1980 Sea Sights
TMC0350/CD2397	1980	256kBit	Speak & Read Module	© 1980 Who´s Who At The Zoo
TMC0350/CD3509	1980	256kBit	Language Teacher	© 1980 German for Travel
TMC0350/CD3534	1981	256kBit	Speak & Read Module	© 1981 A Dog on a Log
TMC0350/CD3535	1981	256kBit	Speak & Read Module	© 1981 The Seal That Could Fly
TMC0350/CD3536	1981	256kBit	Speak & Read Module	© 1981 A Ghost in the House
TMC0350/CD3538	1981	256kBit	Speak & Read Module	© 1981 On The Track
TMC0350/CD3539	1981	256kBit	Speak & Read Module	© 1981 The Third Circle
TMC0350/CD3540	1981	256kBit	Speak & Read Module	© 1981 The Millionth Knight

TMC0355/CD2601	1978	16kBit	Mr. Challenger	Small housing
TMC0355/CD2602	1978	16kBit	Spelling B	Small housing
TMC0355/CD2603	1978	16kBit	LETTERlogic (France)	Small housing
TMC0355/CD2604	1978	16kBit	LETTERlogic	Small housing
TMC0355/CD2605	1980	16kBit	Mr. Challenger (Espaniol)	Small housing
TMC0355/CD2607	1979	16kBit	Spelling ABC	Small housing
CD2610	1981	???	Touch & Tell	Small housing
CD2611	1981		Touch & Tell Module	© 1981 Alphabet Fun
CD2612	1981		Touch & Tell Module	© 1981 Number Fun
CD2613	1981		Touch & Tell Module	© 1981 All About Me
CD2614	1981		Speak & Math	Found in 1986 model

TMC0350/CD62047	1981	???	La Dictée Magique	© 198? Les Animaux Familiers
TMC0350/CD62048	1981	???	La Dictée Magique	© 198? Les Magasins De La Rue
TMC0350/CD62170	1981	???	Touch & Tell (UK)
TMC0350/CD62171	1981	???	Le Livre Magique
TMC0350/CD62172	1981	???	Tipp & Sprich
TMC0350/CD62173	1981	???	Les Maths Magiques
TMC0350/CD62175	1981	???	Speak & Spell (UK)
TMC0350/CD62176	1982	???	Libro Parlante
TMC0350/CD62177	1982	???	La Dictée Magique	© 198? Les Mots Difficiles
TMC0350/CD62178	1982	???	La Dictée Magique	© 198? Les Extra-Terrestres
TMC0350/CD62190	1982	???	Grillo Parlante
TMC0350/CD62313	198x	???	Grillo Parlante Module	SuperModulo

Later Speech Synthesizers (TSP50C0x/1x)
TSP50C04		4k ROM, 576 bits RAM
TSP50C06		6k ROM, 576 bits RAM
TSP50C10		8k ROM, 1088 bits RAM		3 D/A channels
TSP50C10/CSM10047		16k ROM, 1088 bits RAM	Super Speak & Math
TSP50C10/CSM10087		16k ROM, 1088 bits RAM	Super Speak & Spell	Only models manufac. later 1991
TSP50C11		16k ROM, 1088 bits RAM		3 D/A channels
TSP50C11/CSM11012		16k ROM, 1088 bits RAM	Peek-A-Boo Zoo
TSP50C11/CSM11039		16k ROM, 1088 bits RAM	Passport Game
TSP50C11/CSM11122	1992	16k ROM, 1088 bits RAM	Talking Mouse Computer
TSP50C11/CSM11124		16k ROM, 1088 bits RAM	Magic Clown
TSP50C11/CSM11125		16k ROM, 1088 bits RAM	Storytime Sorter
TSP50C11/CSM11128		16k ROM, 1088 bits RAM	Mouse Computer
TSP50C11/CSM11129		16k ROM, 1088 bits RAM	L'Ordinateur Magique
TSP50C11/CSM11157	1993	16k ROM, 1088 bits RAM	My Own Playphone
TSP50C11/CSM11159		16k ROM, 1088 bits RAM	Magic Melody
TSP50C11/CSM11163		16k ROM, 1088 bits RAM	Teddy Touch & Tell
TSP50P11		16k OTP-ROM, 1088 bits RAM		User programmable
TSP50C12		16k ROM, 1088 bits RAM		68 pins, LCD driver
TSP50C13		8k ROM, 1088 bits RAM
TSP50C14		16k ROM, 576 bits RAM
TSP50C14		16k ROM, 576 bits RAM	Discovery Depot
TSP50C14		16k ROM, 576 bits RAM	Touch & Talkies
TSP50C14/CSM14042		16k ROM, 576 bits RAM	Touch & Talkies	Crazy Clubhouse
TSP50C14/CSM14053		16k ROM, 576 bits RAM	Touch & Talkies	Wordy Wagon
TSP50C19		32k ROM, 576 bits RAM
TSP53C32A		16k ROM, 1088 bits RAM		TSP50C10 with integrated word list (Female voice, 48 words)
TSP53C33A		16k ROM, 1088 bits RAM		TSP50C10 with integrated word list (Male voice, 48 words)

Later Speech Synthesizers (MSP50C3x)
MSP50C30		4k ROM, 8320 bits RAM		100 pins (package), 68 pins (die)
CSM30003		4k ROM, 8320 bits RAM	Catalogue part	100 pins (package), 68 pins (die)
MSP50C32		16k ROM, 2176 bits RAM		16 pins (package), 16 pins (die)
MSP50C33		32k ROM, 2176 bits RAM		16 pins (package), 16 pins (die)
MSP50C34		64k ROM, 2176 bits RAM		16 pins (package), 30 pins (die)
MSP50P34		64k OTP-ROM, 2176 bits RAM		User programmable 16 pins (package), 30 pins (die)
MSP50C37		16k ROM, 2176 bits RAM		28 pins (package), 28 pins (die)
MSP50P37		16k OTP-ROM, 2176 bits RAM		User programmable 28 pins (package), 28 pins (die)
MSP53C39				Synthesizer for music (FM) and speech (LPC, MELP, CELP)

Later Speech Synthesizers (TSP50C50/TSP50C4x)
TMP50C40/CM54128	1986		Little Maestro
TMP50C40/CD54129	1986		Speak & Music
TMP50C40/CD54148	1986		La Musique Magique
TMP50C40/CD54149	1986		Speak & Music (UK)
TMP50C40/CD54169	1986		Fonillo Suonaparla
TMP50C40/CD54170	1986		Mathe-Fix
TSP50C41/CSM41014	1988		Voyager
TSP50C42/CSM42005			Touch & Discover
TSP50C42/CSM42008	1988		Super Speak & Read
TSP50C42/CSM42014	1989		Super Libro Parlante
TSP50C42/CSM42020			Super Speak & Spell	Only during the years 1989-1990
TSP50C42/CSM42023	1989		Le Super Livre Magique	Like Touch & Discover
TSP50C42/CSM42024	1990		Speak & Spell Professor	Chinese Version
TSP50C42/CSM42025	1990		Lesefreund, Chatter-Book
TSP50C42/CSM42027	1990		La Super Dictée Magique
TSP50C42/CSM42030	1990		Super Speak & Spell (91) La Super Dictée Magique
TSP50C42/CSM42031			El Loro Parlachín, El Loro Profesor
TSP50C42/CSM42042	1992		Touch & Discover School Edition
TSP50C42/CSM42047			Magic Reading Desk
TSP50C43/CSM57303			Music Star
TSP50C44/CSM44012			Computer Fun
TSP50C44/CSM44017			Computer Fun	English edition
TSP50C44/CSM44024			Computer Fun	German edition

Later Speech Synthesizers (MSP50C6XX)
MSP50C601	1999/2000	128k17 ROM 64017 RAM		17-bit words ROM, 17-bits words RAM
MSP50C604	1999/2000	64k17 ROM 64017 RAM
MSP50C605	1999/2000	224k17 ROM 64017 RAM
MSP50C614	1999/2000	32k17 ROM 64017 RAM
MSP50P614	1999/2000	32k17 EPROM 64017 RAM		EPROM based MSP50C614 for evaluation

Later Speech Synthesizers Memories (TSP60Cxx)
TSP60C18		256kBit		DIP16
TSP60C81		1024kBit		DIP28
TSP60C18/CMM18001			Super Speak & Math
TSP60C18/CMM18004			Super Speak & Spell
TSP60C19/CMM19002			Touch & Discover	© 1987
TSP60C19/CMM19005			Voyager	© 1988
TSP60C19/CMM19006			Computer Fun
TSP60C19/CMM19010			Chatter-Book
TSP60C19/CMM19016			Super Libro Parlante	© 1989
TSP60C19/CMM19018			Lesefreund
TSP60C19/CMM19025			Le Super Livre Magique	© 1989
TSP60C19/CMM19027			Chatter-Book
TSP60C19/CMM19028			Lesefreund Module
TSP60C19/CMM19031			La Super Dictée Magique	© 1990
TSP60C19/CMM19035			Grillo Parlante Piu	© 1990
TSP60C19/CMM19036			El Loro Parlanchín	© 1990
TSP60C19/CMM19037			Grillo Parlante Piu	© 1990 Modulo di Espansione No1
TSP60C19/CMM19040			Computer Fun (UK)	© 1990
TSP60C19/CMM19041			El Loro Parlanchín	© 1990 Modulo de Extension No1
TSP60C19/CMM19044			La Super Dictée Magique	© 1991 Module d' extension No2
TSP60C19/CMM19048			Super Speak & Spell (91)
TSP60C19/CMM19049			La Super Dictée Magique	© 1991 Anglais 1
TSP60C19/CMM19054			El Loro Profesor
TSP60C21/CMM21002			Touch & Discover	© 1987
TSP60C21/CMM21003			Touch & Discover Module	© 1987 New Discoveries
TSP60C21/CMM21004			Touch & Discover Module	© 1987 Advanced Discoveries
TSP60C21/CMM21008			Super Speak & Read Module	© 1988
TSP60C21/CMM21011			Voyager Module	© 1988 Journey into Space
TSP60C21/CMM21013			Voyager Module	© 1988 Journey to Birds & Reptiles
TSP60C21/CMM21014			Voyager Module	© 1989 Journey across The United States
TSP60C21/CMM21016			Voyager Module	© 1988 Journey to The Prehistoric World
TSP60C21/CMM21018			Voyager Module	© 1988 Journey to Exotic Animals
TSP60C21/CMM21026			La Lecture Magique	© 1989 Module d' extension No1
TSP60C21/CMM21028			Voyager Module	© 1989 Journey to U.S. Presidents
TSP60C21/CMM21029			Voyager Module	© 1989 Journey to Language Arts
TSP60C21/CMM21030			Voyager Module	© 1989 Journey to Human Anatomy
TSP60C80/CMM80002			Super Speak & Read Magic Reading Desk	© 1988
TSP60C80/CMM80004			Speak & Spell Professor	© 1991 CHINESE MODULE II
TSP60C80/CMM80008			Touch & Discover School Edition	© 1992 ENGLISH MODULE
TSP60C81/CMM81006			Passport Game

Jeppesen line

Model: Avstar Piper Battery: 2 x LR43 Adapter: Year: 1981Chip: TPO328 Info:This Piper "Flight Computer" gives you an example of using existing products like the TI-35 for other purposes. We know similar approaches from the insurance business (view the TI-58 manufactured for Lloyd) but this one uses a specialized integrated circuit to perform different computations and conversions:

• Alt/AS: Calibrated, True Airspeed, Pressure, Density Altitude
• WIND: Wind Speed, Direction, Course and Heading
• TSD: Time-Speed-Distance, Distance and fuel consumption
• CMP: Computes in the above modes the different values
• CNV: Convert between US and SI-units
• T: Time calculations

LCD-1991-1999

Model: BA real estate Battery: 2 x LR44 Adapter: Year: 1993Chip: T6m51 Toshiba Info: modern LCD 1991 - 1999

LCD-1985-1990

Model: BA-20 Battery: LR41 Adapter: Year: 1997Chip: Inventa LI3163 Info: Malysia

LCD-1982-1987

Model: BA-35 student business analyst Battery: 2 x LR44 Adapter: Year: 1981Chip: CD4571 Info: modern LCD 1982 - 1987

Later HANDHELD printing

Model: BA-45 mcro business manager Battery: 4 x AAA Adapter: Year: 1984Chip: nec UPD7503 Info: later HANDHELD printing made in Japan scientific

Slanted LCD

Model: BA-54 Battery: 2 x LR44 Adapter: Year: 1997Chip: CD4553 CD4554 Info: slanted LCD generation

Slanted LCD

Model: BA-55 Battery: 2 x LR44 Adapter: Year: 1983Chip: CD4553 CD4554 Info: slanted LCD generation

Model: BA-II Battery: 2 x LR44 Adapter: Year: 1985Chip: TPO322 Info: Business Analyst II

Donated by Onofri Rodolfo (Rudy)

LCD-1991-1999

Model: BA II plus Battery: CR2032 Adapter: Year: 1996Chip: T6a53 Toshiba Info: modern LCD 1991 - 1999

LCD-1982-1987

Model: BA-III Battery: 2 x LR44 Adapter: Year: 1985Chip: TPO322 Info:

First lcd and Yellow lcd

Model: Business Card Battery: 2 x LR54 Adapter: Year: 1979Chip: TP-0325 Info:

Jeppesen line

Model: Cessna Sky Comp Battery: 2 x LR43 Adapter: Year: 1983Chip: TPO328 Info: JEPPESSEN line

First solar lcd and Slimline lcd

Model: ET calculator Battery: 2 x LR44 Adapter: Year: 1982Chip: TP0311 Info: slimline LCD - first solar LCD

LCD-1991-1999

Model: Eur-2000 Battery: LR54 Adapter: Year: 1988Chip: Info: The €-2000 calculator combines the usual basic calculator functions with an Euro currency conversion.

LCD-1991-1999

Model: Eur-2000+ Battery: LR54 Adapter: Year: 2001Chip: Info:The €-2000+ calculator combines the usual basic calculator functions with an Euro currency conversion. The exchange rate between the Euro and the Home currency is entered with the small SET-key. Two additional keys allow the conversion in both directions.This calculator added a continuous memory to the earlier €-2000 and a feature to set the number of decimal places (for the curious, you have to press the ON/C key about two seconds to enter the F-0-2 menu). Nevertheless kept the internal construction of the €-2000+ identical with its predecessor.

LCD-1991-1999

Model: Eur-2001 Battery: LR54 Adapter: Year: 1999Chip: Info:The €-2001 calculator combines the usual basic calculator functions with a very convenient Euro currency conversion. All of the 11 yet defined exchange rates are preprogrammed in the calculator, 4 additional ones could be added later. The home country is selected with the Select-key. Two additional keys allow the conversion in both directions. A similar calculator using a desktop housing was introduced with the €-1796 and the €-2003.A simpler calculator was sold with the €-2000. Searching calculators in Europe without the Euro-conversion was difficult in 1999, one example is the TI-1726.In 2006 Texas Instruments surprised customers in Europe with a complete new family of Euro Calculators labeled EC-3, EC-5 and EC-7 Pro.

LCD-1985-1990

Model: FIA-10 Financial Investment Analyst Battery: 2 x CR2032 Adapter: Year: 1989Chip: TMC70035, LH5821, TC5518, TC54256 Info:

LCD-1991-1999

Model: Fun Calc Battery: Solar Adapter: Year: 1994Chip: Info:The Fun Calc is based on the TI-7140 introduced already in 1994, too.

Galaxy line

Model: Galaxy 9 Battery: CR2032 Adapter: Year: 1999Chip: Toshiba T6A60 Info: GALAXY line

Model: Galixa Speech Battery: 4 AA-size NiCd Adapter: 9V 100mA DC Year: 2000Chip: HD64180, M272001, U6264 Galaxy 40x: Toshiba T6A59Info: Made in Germany

This Galixa Speech is a scientific calculator with natural voice speech output. Numerical data on the display panel can be spoken digit by digit or as a complete number. It speaks all key functions: e.g. when the [SIN] key is pressed the calculator says "Sine"; these announcements can be repeated. It also has a built-in clock and alarm function. The volume can be adjusted using a knob.

The language of the Galixa Speech could be choosen between: German, English, French, Italian, Dutch, Spanish,Swedish, Swabian German

EHG Handy Tech Elektronik GmbH introduced the first scientific calculator with voice output and 10-cell Braille display with the Galixa Braille. The first calculator with an upgradeable Braille cell output was the Braillotron TI-2550 II developed by Mr. Schoenherr.

Majestic line

Model: Goulds Pumpulator Battery: 9 volt o Adapter: AC9132 Year: 1980Chip: TMC0980 (CD9801) Info: MAJESTIC line Manual: with permission www.datamath.org

Overhead

Model: Intermediate plus overhead Battery: Adapter: Year: Chip: made in ChinaInfo: The California based company Stokes Publishing Company, Inc. distributes under the label "The Educator®" calculators optimized for teaching purposes. William T. Stokes filed already July 30, 1991 the US Patent Application U.S. Pat. No. 5,035,502 with the title "Transparent calculator for overhead projection".

Jeppesen line

Model: Jeppesen Avstar 1980 Battery: 2 x LR44 Adapter: Year: 1980Chip: TPO328 Info: JEPPESSEN line

Jeppesen line

Model: Jeppesen Avstar 1986 Battery: 2 x LR44 Adapter: Year: 1986Chip: TPO328 Info: JEPPESSEN line

Jeppesen line

Model: Jeppesen Prostar Battery: 2 x LR44 Adapter: Year: 1983Chip: CD4575 - CD4576 Info: JEPPESEN line

LCD-1985-1990

Model: Number Beat Battery: LR43 Adapter: Year: 1987Chip: Info:

Basic

Model: Spirit of 76 Battery: 9 volt Adapter: Year: 1972Chip: TMC0952 Info:

Classic 1 generation

Model: SR-10 Italy Battery: 3 x AA ni-cd Adapter: AC9900 Year: 1973Chip: TMS0120 Info: TIP line - classic first GENERATION the logo is inside the display

Model: SR 10 Italy Battery: 3 x AA ni-cd Adapter: AC9900 Year: 1973Chip: TMS0120 Info: This Calculator has 4 upper keys BLUE prototype or Fake ?

Classic 1 generation

Model: SR-10 vers. 2 Battery: 3 x AA ni-cd Adapter: AC9900 Year: 1973Chip: TMS0120Manual: with permission www.datamath.org Info: TIP line - classic first GENERATION

Classic 1 generation

Model: SR-11 Battery: 3 x AA ni-cd Adapter: AC9900 Year: 1974Chip: TMS0602Manual: with permission www.datamath.orgInfo: TIP line - classic first GENERATION

Classic 1 generation

Model: SR-16 Battery: 3 x AA ni-cd Adapter: AC9200 Year: 1975Chip: TMC1001 Manual: with permission www.datamath.org Info: TIP line - classic first GENERATION

Classic 2 generation

Model: SR-16 II Battery: 3 x AA Adapter: AC8190 Year: 1975Chip: TMC1016 Info: classic second GENERATION

Desktop line

Model: SR-20 Battery: Adapter: AC 110 volt Year: 1973Chip: TMS02020, TMS0304 Manual: with permission www.datamath.org Info: DESKTOP line

Desktop line

Model: SR-22Battery: no Adapter: AC9222 Year: 1974Chip: TMS0207, TMC0323, TMC0404 Info: Look carefully at the display of the SR-22 and you'll notice immediately that this calculator could perform amazing calculations. It is the only calculator reported so far to perform Octal-Decimal-Hexadecimal conversions on the base of floating point numbers.

Majestic line

Model: SR-40 Battery: BP 5 Adapter: AC9132 Year: 1976Chip: TMC0981 Manual: with permission www.datamath.org Info: MAJESTIC line

Model: SR-40 LCD Battery: 2 x AA Adapter: NO Year: 1981Chip: TP0320 Manual: Info:The extremely rare SR-40 LCD (1981) calculator produced in Brazil is an interesting model, as at first glance it looks very similar to the European version of the TI-30 LCD. However, a few differences set it apart. One of the most noticeable differences concerns the keys: while the European TI-30 LCD features the **N!** (factorial) key, the Brazilian SR-40 LCD has the **x!** key, a detail that might reflect slight variations in functionality or target use. Another notable difference is the design of the battery compartment. The SR-40 LCD uses two AA batteries, but the compartment cover requires a coin to be opened, unlike the sliding cover of the European TI-30 LCD. This feature probably represents an adaptation for greater durability or security in battery replacement. These small variations between the models highlight production differences between different markets, making the SR-40 LCD a particularly rare and interesting piece for vintage calculator collectors.

Many Thnaks to DATAMATH.ORG

Classic 1 generation

Model: SR-50 Battery: BP 1 Adapter: AC9200 Year: 1974Chip: TMC0501 / 0521 Manual: with permission www.datamath.org Info: TIP line - classic first GENERATION

Classic 2 generation

Model: SR-50 A Battery: BP 1 A Adapter: AC9130 Year: 1976Chip: TMC0501 - TMC0503 Manual: with permission www.datamath.org Info: classic second GENERATION

Model: SR-50 Dismac Battery: BP 1 Adapter: AC9200 Year: 1974Chip: TMC0501 / 0521 Manual: Info: Fellow calculator collector Marie Lisa Collas surprised us in December 2015 with this unusual looking SR-50manufactured for Dismac Industrial S.A. in Brazil. Texas Instruments changed the appearance of the original dramatically by simply switching the silver colored aluminum bezel from the display frame to the keyboard. Purchased in 2022.

Classic 1 generation

Model: SR-51 1vDisplay: 10 + 2 Battery: BP 1 Adapter: AC9200 Year: 1975Chip: TMC0501, TMS0522, TMC0523 Manual: Info:With the SR-51 Texas Instruments began a series of scientific calculators that added statistical functions and conversions to the "usual functions". But none of them are engineered as flawlessly as the SR-51. It was built as a tank to survive decades of use like its close relative SR-50. Compared to previous models, the SR-51 got a keyboard design with white, gray, yellow and orange keys and gave a perspective to later TI calculators. To reduce manufacturing costs and to give a similar look and feel to the SR-52 and SR-56 calculators, the SR-51 was replaced within months with the SR-51A. Logically it is quite rare. However, two different variants are known: this model from an early production batch uses huge yellow characters for the 2 shifted functions, while the later SR-51 sports much finer print.

This rare model had many parts corroded by battery acid, the 7-segment displays completely corroded, the replacement and cleaning of the keyboard can be seen on the side.

Classic 2 generation

Model: SR-51 2v Battery: BP 1 Adapter: AC9200 Year: 1975Chip: TMC0501, TMS0522, TMC0523 Manual: with permission www.datamath.org Info:

Classic 2 generation

Model: SR-51 A Battery: BP 1 Adapter: AC9130 Year: 1976Chip: TMC0501 / 522 / 523 Info: classic second GENERATION

Classic 2 generation

Model: SR-51 A Battery: BP 1 Adapter: AC9130 Year: 1976Chip: TMC0501 / 522 / 523 Info:This calculator has the 4 keys for BLUE operations is it a prototype or a fake?

Majestic line

Model: SR-51 II Battery: BP 6 Adapter: AC9131 Year: 1977Chip: TMC0501 / 581 Manual: with permission www.datamath.org Info: MAJESTIC line

Classic 2 generation

Model: SR-52 Battery: 3 x AA Adapter: AC9130A or DC9105 Year: 1975Chip: TMC0501 / 0524 /0595 / 2xTMC0599, 2xTMC0561/0562 Manual: with permission www.datamath.org basic library Info: classic second GENERATION

Model: SR-52 clear case Battery: 3 x AA Adapter: AC9130A Year: 1976Chip: TMC0501, TMS0537, TMC0538, TMC0599 Info: This SR-52 Clear-Clase Prototype was most likely manufactured in November 1974 and is a strange hybrid sporting.

Model: SR-56 Battery: 3 x AA Adapter: AC9130A Year: 1976Chip: TMC0501, TMS0537, TMC0538, TMC0599 Manual: with permission www.datamath.org Info: classic second GENERATION

Model: SR-60 Battery: NO Adapter: AC 110 volt or AC 220 volt Year: 1976Chip: TMC0501, TMC0526 or TMC0536, TMC0564, TMC0565, TMC0566, TMC0567, TMC0568 or TMC0570, TMC0596, 5*TMC0599, TMC0253, TMC0254 Info: Texas Instruments introduced in 1976 with the SR-60 their first high-end programmable desktop calculator. Priced at $1695 and with a footprint of roughly 17" by 14.5" (430 mm * 370 mm) the SR-60 resembled more a computer than a programmable calculator.

Based on the SR-52 and SR-56 series of programmable calculators, the SR-60 integrated a full-sized keyboard with 95 keys, a large alphanumeric display with 20 characters, a thermal dot-matrix printer with 20 characters and a magnetic card reader for saving and loading both programs and data.

One of the main advantages of the SR-60 is the huge memory for data and program, already the base model could hold 480 program steps and 40 memory registers. Two memory expansion modules were available, one implemented with just two small daughter boards holding 5 resp. 3 TMC0599 RAM chips accessible through a bottom panel in the housing. The second memory expansion, a huge printed circuit board (PCB) with a total of 27 TMC0599 RAM chips, was mounted below the keyboard next to the Main PCB.

The SR-60 operates using pure algebraic logic (e.g., problems are presented to the machine as they would be written on paper). The calculator adheres to the PEMDAS (Parenthesis, Exponentiation, Multiplication, Division, Addition, Subtraction) order of precedence. The [(] and [)] keys may be used to group expressions to override the PEMDAS rules as required. Parentheses can be nested up to ten levels deep. The machine calculates and displays results to ten significant digits, and always formats the display to provide maximum accuracy.

with permission of the author www.datamath.org

Claudio Larini. My interest in the world of information technology was born as soon as I finished high school, before leaving for the university adventure at the Polytechnic of Milan, after having purchased the first issue of a magazine, Micro and Personal Computer in September 1979. So after having consulted the "Market Guide", which was divided between Personal Computers, Programmable Calculators and Microprocessor Boards, and compatibly with the available budget I decided to purchase a programmable calculator.

SR-60 EMULATOR (and others ....) Claudio Larini ITALY

TroubleShooting

After finding the SR-60 and checking it, we realized that it wasn't working. We started with the power supply. This power supply provides all power for the individual PCBs, (-20, -15.8, -10, -5 and -19) with an input voltage ranging from -26.5 to -42. At this point we realized that the -15.8 voltage that powers the main PCB was not being supplied.

As expected with these 50 year old objects, the filter capacitors, in this case 10uF, failed, one was shorted, another changed value.

Causing the breakage of three transistors in the power supply, the TIP30 replaced with one from the stock of components we have from the 70s and 80s, in addition to the A1872 replaced with a BC556 and an A2031 replaced with a BC547. We were unable to find the latter the same .

Model: SR-60 A Battery: Adapter: AC 110 volt Year: 1978Chip:TMC0501, ...TMC0526, 5*TMC0599, TMC0253 Info: Texas Instruments introduced in 1976 with the SR-60 their first high-end programmable desktop calculator. Priced at $1695 and with a footprint of roughly 17" by 14.5" (430 mm * 370 mm) the SR-60 resembled more a computer than a programmable calculator. Based on the SR-52 and SR-56 series of programmable calculators, the SR-60 integrated a full-sized keyboard with 95 keys, a large alphanumeric display with 20 characters, a thermal dot-matrix printer with 20 characters and a magnetic card reader for saving and loading both programs and data. One of the main advantages of the SR-60 is the huge memory for data and program, already the base model could hold 480 program steps and 40 memory registers. Two memory expansion modules were available, one implemented with just two small daughter boards holding 5 resp. 3 TMC0599 RAM chips accessible through a bottom panel in the housing. The second memory expansion, a huge printed circuit board (PCB) with a total of 27 TMC0599 RAM chips, was mounted below the keyboard next to the Main PCB. A fully-optioned SR-60 could hold programs with a maximum of 5760 steps and 430 memory registers.

Majestic line

Model: TI business analyst I LED Battery: 9 volt or RK2 Adapter: AC9132 Year: 1981Chip: TMC0982 Info: MAJESTIC line

First lcd and Slimline lcd

Model: TI business analyst II lcd Battery: 2 x LR44 Adapter: Year: 1980Chip: TPO322 Info: first LCD and slimline LCD

Majestic line

Model: TI business analyst Battery: BP5 , BP8 Adapter: AC9131 , AC9132 Year: 1978Chip: TMC0982 Info: MAJESTIC line

First lcd and Slimline lcd

Model: TI Investment Analyst Battery: 2 x LR44 Adapter: Year: 1980Chip: TP0320 (CD3201) Info:

Majestic line

Model: TI money manger led Battery: BP 7 Adapter: AC9132 Year: 1977Chip: TMC0982 Info: MAJESTIC line

Slanted LCD

Model: TI programmer II lcd Battery: 2 x LR44 Adapter: Year: 1985Chip: TPO456/CD4569 Info: If you take your time comparing this calculator with all other members of the second slanted series (BA-54, TI-57-II) you notice something very special. The keyboard position doesn't fit to the usual spacing. The ON/C-key is misplaced and one key is super-sized. You have to open the calculator to get the answer: This is not the usual construction of a slanted calculator! A very small printed-circuit-board, actual the form factor of a modern slimline calculator like the BA-II, is fitted into the housing.

Slanted LCD

Model: TI programmer lcd Battery: 2 x LR44 Adapter: Year: 1983 Chip: CD4569 Info: slanted LCD generation

Majestic line

Model: TI programmer led Battery: BP 8 Adapter: AC9132 Year: 1980Chip: TMC0983 Info: MAJESTIC line

Majestic line

Model: TI the MBA Battery: BP 7 Adapter: AC9132 Year: 1981Chip: TMC1502 Info: MAJESTIC line Made in USA

LCD-2000-2017

Model: TI-10 Battery: solar, CR2025 Adapter: Year: 2002Chip: Info: modern LCD 2000 - 2017

Modern Desktop

Model: TI-10 europa Battery: solar Adapter: Year: 1995Chip: Info: modern DESKTOP

Overhead

Model: TI-10 overhead Battery: Adapter: Year: 2006Chip: made in ChinaInfo: The California based company Stokes Publishing Company, Inc. distributes under the label "The Educator®" calculators optimized for teaching purposes. William T. Stokes filed already July 30, 1991 the US Patent Application U.S. Pat. No. 5,035,502 with the title "Transparent calculator for overhead projection".

Basic

Model: TI-1000 gold Battery: 3 x AAA ni-cd Adapter: AC9180 Year: 1977Chip: TMC1991 or TMC1992 Info:

Basic

Model: TI-1000 silver Battery: 3 x AAA ni-cd Adapter: AC9180 Year: 1977Chip: TMC1991 or TMC1992 Info:

First solar lcd and Slimline lcd

Model: TI-1001 Battery: 2 x LR43 Adapter: Year: 1982Chip: TP0311 Info: slimline LCD - first solar LCD

LCD-1980-1984

Model: TI-1002 Battery: 2 x LR1130 Adapter: Year: 1983Chip: Info: made in Taiwan

LCD-1980-1984

Model: TI-1006 Battery: solar Adapter: Year: 1983Chip: T6789s Thoshiba Info: LCD 1980 - 1984 Made in Japan

First solar lcd and Slimline lcd

Model: TI-1010 Battery: 2 x LR43 Adapter: Year: 1980Chip: TP0311 Info: slimline LCD - first solar LCD

LCD-1980-1984

Model: TI-1015 brown Battery: 2 x AA Adapter: Year: 1982Chip: T3876Stoshiba Info: Made in Japan Brown version

LCD-1980-1984

Model: TI-1015 cream Battery: 2 x AA Adapter: Year: 1982Chip: T3876Stoshiba Info: Made in Japan

LCD-1980-1984

Model: TI-1020 brown Battery: 2 x AA Adapter: Year: 1980Chip: Sharp LI 3009Info:We wrote the year 1980, when Texas Instruments discovered the lower labor costs of Taiwan, R.O.C. compared to US or Europe. Till the early 80s most calculators from Texas Instruments were produced either in US or Italy and some early LCD models like the TI-1768 even in Japan. Taiwan.

LCD-1980-1984

Model: TI-1020 cream Battery: 2 x AA Adapter: Year: 1980Chip: Sharp LI 3009Info:We wrote the year 1980, when Texas Instruments discovered the lower labor costs of Taiwan, R.O.C. compared to US or Europe. Till the early 80s most calculators from Texas Instruments were produced either in US or Italy and some early LCD models like the TI-1768 even in Japan. Made in Taiwan

Model: TI-1025 Battery: 9 volt Adapter: Year: 1977Chip: TMC0923 Info:

First solar lcd and Slimline lcd

Model: TI-1030 Battery: 2 x LR43 Adapter: Year: 1981Chip: TP0311 Info: slimline LCD - first solar LCD

First solar lcd and Slimline lcd

Model: TI-1031 Battery: 2 x LR43 Adapter: Year: 1981Chip: TP0311 Info: slimline LCD - first solar LCD

First solar lcd and Slimline lcd

Model: TI-1032 Battery: 2 x AA Adapter: Year: 1982Chip: TP0311 Info: slimline LCD - first solar LCD

First solar lcd and Slimline lcd

Model: TI-1032 BPR Battery: 2 x AA Adapter: Year: 1982Chip: TP0311 Info: This it was given to employees (Banca Popolare di Rieti) as a gift.

First lcd and Yellow lcd

Model: TI-1035 Battery: 2 x LR44 Adapter: Year: 1979Chip: Toshiba T3703 Info:first TI-LCD - yellow LCD

LCD-1980-1984

Model: TI-1036 Battery: 2 x LR1130 Adapter: Year: 1986Chip: Info: LCD 1980 - 1984

First lcd and Slimline lcd

Model: TI-1040 Battery: 2 x LR43 Adapter: Year: 1980Chip: TPO311 Info:

Basic

Model: TI-1050 Battery: 9 volt Adapter: Year: 1977Chip: TMC0921 Info:

First solar lcd and Slimline lcd

Model: TI-1070 Battery: 2 x LR43 Adapter: Year: 1979Chip: TP0314 Info: slimline LCD - first solar LCD Made in Italy

First solar lcd and Slimline lcd

Model: TI-1071 Battery: 2 x LR43 Adapter: Year: 1979Chip: TP0314 Info: slimline LCD - first solar LCD Made in Spain

LCD-1985-1990

Model: TI-108 Battery: solar Adapter: Year: 1988Chip: Info: LCD 1985 - 1990 Made in Taiwan

Overhead

Model: TI-108 overhead Battery: Adapter: Year: Chip: made in ChinaInfo: The California based company Stokes Publishing Company, Inc. distributes under the label "The Educator®" calculators optimized for teaching purposes. William T. Stokes filed already July 30, 1991 the US Patent Application U.S. Pat. No. 5,035,502 with the title "Transparent calculator for overhead projection".

LCD-1980-1984

Model: TI-1100 Battery: LR43 Adapter: Year: 1990Chip: Toshiba Info:

LCD-1982-1987

Model: TI-12 math explorer Battery: solar Adapter: Year: 1988Chip: T6m39s Toshiba Info: modern LCD 1982 - 1987

LCD-1991-1999

Model: TI-12 math explorer Battery: solar Adapter: Year: 1998Chip: T6m39s Toshiba Info: China. The Math Explorer ( TI-12) is another calculator introduced by Texas Instruments to perform fractional arithmetic for elementary school.

Overhead

Model: TI-12 intermediate overhead Battery: Adapter: Year: Chip: made in ChinaInfo: The California based company Stokes Publishing Company, Inc. distributes under the label "The Educator®" calculators optimized for teaching purposes. William T. Stokes filed already July 30, 1991 the US Patent Application U.S. Pat. No. 5,035,502 with the title "Transparent calculator for overhead projection".

Basic

Model: TI-1200 Battery: 9 volt Adapter: Year: 1975Chip: TMS0952 Info: Introduced in March 1975, the TI-1200 started together with the TI-1250 a great career with millions and millions units manufactured over the course of about 2 years. As a successor to both the stylish TI-1500 and the Exactra line, the TI-1200 demonstrated already the impressive design and technical engineering behind the TI-30.

Model: TI-1200 lady Battery: 9 volt Adapter: AC9180 Year: 1976Chip: TMS0972 Info:

Model: TI-1205 Battery: 2 x AA ni-cd Adapter: AC9130 Year: 1977Chip: TMS0972 Info:Texas Instruments took in 1976 in conjunction with mathematics educators at two major universities an initiative to introduce a group of 6 calculators for educational use. Including the Little Professor, the limited function ABLE calculator, the colorful TI-1205 and TI-1255, the TI-30 and the sophisticated SR-51-II, these calculators helped students understand and use math concepts from kindergarten through college and career.The TI-1205 is based on the TI-1200 but includes rechargeable NiCd-batteries instead the standard 9V block battery. To enhance the readability of the keyboard both the size of the numerals and the color-scheme was improved.Disassembling the TI-1205 with Date code 1977 LTA and manufactured in May 1977 in Lubbock, Texas reveals an internal construction identical with the TI-1255. Instead of the 9V battery found in the original TI-1200/TI-1250 design, the TI-1205 makes use of 2 rechargeable, AA-sized NiCd (Nickel Cadmium) batteries. The printed circuit board (PCB) of the TI-1205 adds both the charging circuit for the batteries and a step-up converter to generate the 9V supply of the TMS0972 single-chip calculating circuit to the design known from the TI-1250.

Donated from Marie Collas (FR)

Model: TI-1220 Battery: 9 volt Adapter: AC9180 Year: 1976Chip: TMS0972 Info: custom model manufactured for True Value Harware Store

Model: TI-1225 Battery: 9 volt Adapter: AC9180 Year: 1976Chip: TMS0972 Info: custom model manufactured for True Value Harware Store

Model: TI-1250 Battery: 9 volt Adapter: AC9180 Year: 1976Chip: TMC0952 Info:

Model: TI-1255 Battery: 9 volt Adapter: AC9130 Year: 1977Chip: TMC0972 Info: property Marie Collas

Basic

Model: TI-1260 Battery: 9 volt Adapter: AC9180 Year: 1976Chip: TMC0954 Info:

Basic

Model: TI-1265 Battery: 9 volt Adapter: AC9180 Year: 1977Chip: TMS1043 Info:

Basic

Model: TI-1270 Battery: 9 volt Adapter: Year: 1976Chip: TMC0974 Info:

Basic
Rare

Model: TI-1270 V0 Battery: 9 volt Adapter: AC9180 Year: 1977Chip: TMS0974 (7701) Year 77 Week 01 / ZA0355 Info: Discovery of a very early version of TI-1270 built in Rieti (RCI2177 Week 21 Year 1977), you can see the writing 1270 printed on the metal mask under the display.

Model: TI-1400 Battery: 9 volt Adapter: AC9180 Year: 1976Chip: TMS0972 Info:

Model: TI-1450 Battery: 9 volt Adapter: AC9180 Year: 1976Chip: TMS0972 Info:

Model: TI-15 explorer lcd Battery: CR2025 Adapter: Year: 2007Chip: China Info:

Euro line

Model: TI-15 lcd Battery: 2 x AA alkaline Adapter: Year: 1982Chip: Taiwan Info

Euro line

Model: TI-15 Battery: 9 volt Adapter: Year: 1981Chip: TMC0981 Info: EURO line

Overhead

Model: TI-15 overhead Battery: Adapter: Year: Chip: made in ChinaInfo: The California based company Stokes Publishing Company, Inc. distributes under the label "The Educator®" calculators optimized for teaching purposes. William T. Stokes filed already July 30, 1991 the US Patent Application U.S. Pat. No. 5,035,502 with the title "Transparent calculator for overhead projection".

Basic
Rare

Model: TI-150 Battery: 4 x AA ni-cd internal Adapter: AC9150 Year: 1975Chip: TMS0852 Info: This calculator tastes different, it was a dear friend Joerg of datamath.org who gave it to me.

Very Rare

Basic

Model: TI-1500 Battery: 2 x AA ni-cd Adapter: AC9140, AC9900/C Year: 1974Chip: TMS0803 Info:

LCD-1985-1990

Model: TI-1505 Battery: LR1130 Adapter: Year: 1985Chip: Info: LCD 1985 - 1990 Made in Taiwan

Basic

Model: TI-1600 Battery: special 1,2 ni-cd Adapter: AC9131 Year: 1977Chip: TMS1043 Info:

LCD-1985-1990

Model: TI-1606 Battery: solar Adapter: Year: 1985Chip: Info:

LCD-1985-1990

Model: TI-1626 Battery: 2 x AA Adapter: Year: 1985Chip: Info: The TI-1626 could be called one of the smallest, thinnest and lightest calculators manufactured by Texas Instruments.

Basic

Model: TI-1650 Battery: special 1,2 ni-cd Adapter: AC9131 Year: 1976Chip: TMS1043 Info:

Basic

Model: TI-1680 Battery: special 1,2 ni-cd Adapter: AC9131,AC9132 Year: 1978Chip: TMC1981,TMC0999 Info:

First lcd and Yellow lcd

Model: TI-1700 Battery: 3 x LR54 Adapter: Year: 1978Chip: T3551 or T3708toshiba Info: first TI-LCD - yellow LCD

LCD-1980-1984

Model: TI-1706 Battery: solar Adapter: solar Year: 1983Chip: Sharp LI3129 Info:

LCD-1980-1984

Model: TI-1706 II Battery: 2 x solar Adapter: Year: 1985Chip: Info: LCD 1980 - 1984

LCD-1985-1990

Model: TI-1706 III Battery: solar Adapter: solar Year: 1990Chip: Sharp LI3135MS Info:

LCD-1991-1999

Model: TI-1706 SV Battery: LR54 Adapter: Year: 1999Chip: sharp LI3154 Info: LCD 1991 - 1999

LCD-1982-1987

Model: TI-1744 Battery: 2 x LR43 Adapter: Year: 1982Chip: NEC uPD1831G Info: Made in Taiwan

LCD-1982-1987

Model: TI-1746 Battery: solar Adapter: Year: 1985Chip: Info: Made in Taiwan

First lcd and Yellow lcd

Model: TI-1750 Battery: 3 x LR44 Adapter: Year: 1977Chip: Toshiba T3532 Info: first TI-LCD - yellow LCD

First lcd and Yellow lcd

Model: TI-1750-II Battery: 2 x LR54 Adapter: Year: 1980Chip: Toshiba T3709 Info:

First lcd and Slimline lcd

Model: TI-1750 III Battery: 2 x LR43 Adapter: Year: 1982Chip: TPO311 Info:

LCD-1980-1984

Model: TI-1754 Battery: 2 x LR54 Adapter: Year: 1981Chip: Sharp LI3033MT Info:In 1981/1982 Texas Instruments introduced not only cheap looking calculators manufactured in Taiwan like the TI-1015 or TI-1006 but some very stylish and thin calculators. The line covers the TI-1754 (credit card sized), TI-1755 (golden trim), TI-1756 (silver edition of the TI-1755) and TI-1757 (Music Card). All four models got an audible instead of a tactile feedback of the entries.

LCD-1980-1984

Model: TI-1755 Battery: Adapter: Year: 1982Chip: Sharp LI3033MT Info: In the year 1982 Texas Instruments introduced not only cheap looking calculators manufactured in Taiwan like the TI-1015 or TI-1006 but some very stylish and thin calculators.

LCD-1980-1984

Model: TI-1755 solar Battery: Adapter: Year: 1983Chip: Info: LCD 1980 - 1984 Made in Taiwan

LCD-1980-1984

Model: TI-1757 Battery: 2 x LR54 Adapter: Year: 1981Chip: Sharp LI3033MT Info:The TI-1757 added the ability to reproduce musical notes to the TI-1755, pressing all keys from zero to nine reproduces the musical scale.

LCD-1980-1984

Model: TI-1757 II Battery: 2 x LR54 Adapter: Year: 1983Chip: Sharp LI3033MT Info:The TI-1757 II "Melody Calculator" added to the similar TI-1755 the capabilities to play own melodies or the "Happy Birthday..." rhyme. The music function gives 10 notes of a scale. With 2 notes below the octave and one above you can play simple tunes. Another key allows you to play either flat (b) or sharp (#). This transforms the basic key of C to F and G by flattening the B to Bb in the first case and sharpening the F to F# in the second case. Thus most tunes can be played with a little practice.

First lcd and Yellow lcd

Model: TI-1760 datacard Battery: 2 x LR54 Adapter: Year: 1979Chip: Info: first TI-LCD - yellow LCD

LCD-1991-1999

Model: TI-1766 + Battery: LR54 Adapter: Year: 1999Chip: Info: LCD 1991 - 1999

LCD-1985-1990

Model: TI-1766 II Battery: solar Adapter: Year: 1986Chip: Info: LCD 1985 - 1990 Made in Taiwan

LCD-1985-1990

Model: TI-1766 III Battery: solar Adapter: Year: 1992Chip: Info: Made in Malaysia

LCD-1980-1984

Model: TI-1766 Battery: solar Adapter: Year: 1983Chip: T6758 Toshiba Info: LCD 1980 - 1984

LCD-1980-1984

Model: TI-1767 Battery: solar Adapter: Year: 1984Chip: Info: The TI-1767 was introduced together with the TI-1706. It combines design elements of the wonderful TI-1766 with the cheaper housing of the TI-1706. Main difference to both other calculators is the 10-digit display capability.

LCD-1985-1990

Model: TI-1768 II Battery: solar Adapter: Year: 1991Chip: Sharp LI3135 or LI3154 Info:

LCD-1985-1990

Model: TI-1768 Battery: solar Adapter: Year: 1987Chip: LI3135 sharp Info: LCD 1985 - 1990

LCD-1985-1990

Model: TI-1775 Battery: solar Adapter: Year: 1988Chip: Info:

LCD-1985-1990

Model: TI-1775+ Battery: LR44Adapter: Year: 1997Chip: Info: made in Thailandia

LCD-1985-1990

Model: TI-1776 Battery: SolarAdapter: Year: 1982Chip: Info:At first glance seems the TI-1776 almost identical with the TI-1766, the first solar powered calculator introduced by Texas Instruments. The main difference is a much smaller and thinner housing, engineers of Toshiba, Japan shrank the calculator in all three dimensions by about 20%.

LCD-1980-1984

Model: TI-1780 card Battery: solar Adapter: Year: 1983Chip: Info: LCD 1980 - 1984

LCD-1985-1990

Model: TI-1783 card Battery: solar Adapter: Year: 1984Chip: Info: The TI-1783, introduced together with 4 other members of the TI CARD family (TI-1784, TI-1785, TI-1786 ), weights less than 1 ounce! Made in Taiwan

LCD-1985-1990

Model: TI-1784 card Battery: solar Adapter: Year: 1985Chip: Info:The TI-1784, introduced together with 4 other members of the TI CARD family (TI-1783, TI-1785, TI-1786 ), weights less than 1 ounce! Made in Taiwan

LCD-1985-1990

Model: TI-1785 card Battery: solar Adapter: Year: 1985Chip: Info: The TI-1785, introduced together with 4 other members of the TI CARD family (TI-1784, TI-1783, TI-1786 ), weights less than 1 ounce! Made in Taiwan

LCD-1985-1990

Model: TI-1786 card Battery: solar Adapter: Year: 1990Chip: Info: The TI-1786, introduced together with 4 other members of the TI CARD family (TI-1784, TI-1783, TI-1785 ), weights less than 1 ounce! Made in Taiwan

LCD-1980-1984

Model: TI-1788 Battery: 2 x LR44 Adapter: Year: 1981Chip: Info: LCD 1980 - 1984 Made in Taiwan

LCD-1982-1987

Model: TI-1788 II Battery: 2 x LR43 Adapter: Year: 1982Chip: Info: LCD 1980 - 1984 Made in Taiwan

LCD-1982-1987

Model: TI-1788 III Battery: 2 x LR43 Adapter: Year: 1985Chip: Info: Made in Taiwan

The TI-1788 III combines the clock and alarm time function known from the TI-1788 II with a whole set of additional functions and includes:

• 8-digit calculator including full memory
• Clock with alarm time and buzzer
• World Time
• Calendar with Day of Week function
• Stopwatch with intermediate results
• Conversion capability (multiplies with and divides by a constant)

First lcd and Yellow lcd

Model: TI-1790 datachron Battery: 2 x LR44 Adapter: Year: 1978Chip: T3566 Toshiba Info: first TI-LCD - yellow LCD

Lcd Solar

Model: TI-1795 plus Battery: solar Adapter: Year: 1994Chip: Sharp LI3154 Info:

Modern Desktop

Model: TI-1798 Battery: solar Adapter: Year: 1990Chip: Info: modern DESKTOP made in taiwan

LCD-1982-1987

Model: TI-18 Battery: 2 x LR43 Adapter: Year: 1983Chip: TPO311 Info: modern LCD 1982 - 1987

First solar lcd and Slimline lcd

Model: TI-1850 visor kit Battery: 2 x LR43 Adapter: Year: 1981Chip: TP0311 Info: slimline LCD - first solar LCD

First lcd and Slimline lcd

Model: TI-1880 CheckWriter Battery: 2 x LR43 Adapter: Year: 1982Chip: TPO0311 Info: The TI-1880 Checkwriter combines a wallet to hold the checks, balance book, cash, credit cards and a pen with a slimline calculator. The calculator is a standard TI-1001 with brown-silver colored housing.

LCD-1980-1984

Model: TI-1889 metric Battery: 2 x LR1130 Adapter: Year: 1982Chip: Toshiba T6751 Info: Made in Japan. Compared with the basic calculators manufactured in Taiwan early in the Eighties, the "TI-1889 Metric Converter" feels more substantial.

First lcd and Slimline lcd

Model: TI-1890 converter Battery: 2 x LR44 Adapter: Year: 1983Chip: CD4559 Info: first LCD and slimline LCD

LCD-1985-1990

Model: TI-1895 II Battery: solar Adapter: Year: 1989Chip: Info: Made in Taiwan

First lcd and Slimline lcd

Model: TI-20 Battery: 2 x LR44 Adapter: Year: 1980Chip: TPO326 Info: first LCD and slimline LCD

First lcd and Slimline lcd

Model: TI-2001 gti France Battery: 2 x AA Adapter: Year: 1982Chip: TP0455/CD4514 or TP0456/CD4564 Info: Blackhousing . Made in Italy

First lcd and Slimline lcd

Model: TI-2001 gti France Battery: 2 x AA Adapter: Year: 1982Chip: TP0455/CD4514 or TP0456/CD4564 Info: Silver housing . Made in Italy

First lcd and Slimline lcd

Model: TI-2001 gti ITA Battery: 2 x AA Adapter: Year: 1982Chip: TP0455/CD4514 or TP0456/CD4564 Info: Black Housing. Made in Italy

First lcd and Slimline lcd

Model: TI-2001 gti ITA Battery: 2 x AA Adapter: Year: 1982Chip: TP0455/CD4514 or TP0456/CD4564 Info: Silver Housing. Made in Italy

First lcd and Slimline lcd

Model: TI-2001 gti USA Battery: 2 x AA Adapter: Year: 1982Chip: CD4564 Info: first LCD and slimline LCD Made in USA

First lcd and Slimline lcd

Model: TI-2001 logpit DE Battery: 2 x AA Adapter: Year: 1982Chip: CD4564 Info: the logo " logpit " is white. In 1982 Texas Instruments changed the design of the original LOGpit slightly. Please compare the color of the name plate just below the LC-displa

First lcd and Slimline lcd

Model: TI-2001 logpit DE Battery: 2 x AA Adapter: Year: 1981Chip: CD4564 Info: the logo " logpit " is blue. The LOGpit sold in Germany was thought as a calculator for cars. With an integrated timer/clock you could measure your travelling speed, calculate your remaining time to the destination and some other car related calculations.

LCD-1980-1984

Model: TI-21 Battery: 2 x AA Adapter: Year: 1982Chip: Info: Taiwan

LCD-1980-1984

Model: TI-2200 checkwriter Battery: LR43 Adapter: Year: 1984Chip: NEC uPD1833 Info: The TI-2200 Checkwriter keeps the balance of three different accounts. The idea behind this calculator traces back to the TI-1880 Checkwriter.

LCD-1985-1990

Model: TI-2200 II checker Battery: LR43 Adapter: Year: 1987Chip: Info: LCD 1985 - 1990

First lcd and Slimline lcd

Model: TI-25 Battery: 2 x LR44 Adapter: Year: 1978Chip: T3763 Toshiba Info: first LCD and slimline LCD

TI-2500 V0 (white) datamath

Audio Guide

Model: TI-2500 V0 (white) datamath Battery: 6 x AA ni-cd internal Adapter: AC9100 Year: 1972 S/N: D0000 - 00599Chip: TMS0110 Info: The famous TI-2500 Datamath calculator was first announced in April 1972 with a suggested retail price (SRP) of $149.95. Beginning June 1972 first customers received in the Neiman-Marcus and Sanger-Harris department stores in Dallas, TX their calculators before the formally introduction on September 21, 1972.

Special thanks to Alexandru Balasa for the donation

Datamath

Model: TI-2500 datamath Battery: 6 x AA ni-cd internal Adapter: AC9100 Year: 1972Chip: TMS0119 Info: 1 version

Datamath

Model: TI-2500 Battery: 6 x AA ni-cd internal Adapter: AC9100 Year: 1972Chip: TMS0119 Info: 2 version

Datamath

Model: TI-2500 B Battery: 6 x AA ni-cd internal Adapter: AC9100 Year: 1972Chip: TMS083 Info:

Datamath

Model: TI-2500 II Battery: 6 x AA ni-cd internal Adapter: AC9100 Year: 1972Chip: TMS083 Info:

Datamath

Model: TI-2500 Longines Symphonette Battery: 6 x AA ni-cd internal Adapter: AC9100 Year: 1972Chip: TMS0119 Info: This calculator sold by Longines Symphonette could be easily recognized as a Texas Instruments Datamath calculator. It followed the Electronic Calculator introduced few month earlier. The main differences between the original and the badged calculators are the olive-green colour of the housing, the grey keys and the Longines Symphonette label.

Model: TI-2500 Longines Symphonette 1 version Battery: 6 x AA ni-cd internal Adapter: AC9100 Year: 1972Chip: TMS0119 Info: This calculator sold by Longines Symphonette could be easily recognized as a Texas Instruments Datamath calculator. It followed the Electronic Calculator ioduced few month earlier. The main differences between the original and the badged calculators are the olive-green color of the housing, the grey keys and the Longines Symphonette.

Datamath

Model: TI-2510 Battery: 4 x AA ni-cd internal Adapter: AC9120 Year: 1975Chip: TMS0119 Info:

Datamath

Model: TI-2511 Battery: 4 x AA alkaline Adapter: AC9900/e Year: 1974Chip: TMS0119 Info: 1 version

Basic

Model: TI-2550 Battery: 3*AA NiCd or 4*AA Alkaline Adapter: AC9130 or AC9120 Year: 1974Chip: TMS0601 Info: Released one year after the legendary TI-2500, the first with a lens display (like bubbles)

Basic

Model: TI-2550 II Battery: 2 AA or BP2 Adapter: Year: 1976Chip: TMS1071 Info:

Basic

Model: TI-2550 III Battery: BP3 Adapter: AC9130A Year: 1976Chip: TMS1043 Info:

Basic

Model: TI-2550 IV Battery: BP4 Adapter: AC9900/H Year: 1979Chip: TMC1981,TMC0999 Info:

LCD-1982-1987

Model: TI-2600 personal banker Battery: solar Adapter: Year: 1987Chip: Toshiba Info:

Model: TI-30 LED Battery: 9 volt or RK2 Adapter: AC9132 or AC9182 Year: 1976 Price: Lire 19.000 + 14 % ivaChip: TMC0981 Info:This Italian-made TI-30 (4376 RCI, November 1976) looks different from the original TI-30. Instead of the usually printed TI logo and the TEXAS INSTRUMENTS nameplate, this one uses only a sticker, a metal plate with a black background and gold-colored writing, like other calculators made in Europe, TI-45, TI-57, Privileg SR-35NC, but also a calculator sold by Radio Shack in the United States, the Radio Shack EC-4000. Later, during production, the metal plate was replaced to adapt it to the US design. We are particularly fond of this one, as we have been looking for one for many years and finally found two in one week (2023).

Here's a nice display for the famous TI-30 LED. They could have inserted a small wafer into this PCB and then covered it with resin or soldered the integrated circuit, the TMC0981.

Model: TI-30 clear case Battery: 2 x LR44Adapter: no Year: 1986Chip: TP0456/CD4565 Info:In particular, the writing is in orange, as are the keys and the battery cover of the same color, made in Italy (Rieti).

I have to thank Gaetano Perrella, former employee of Texas Instruments in Rieti for the donation!

Why were transparent shells made? Transparent shells helped visually where the CAD of the time was not enough, in this way further mechanical modifications could be made! (info Domenico Calì , former Texas Instruments employee).The transparent shells helped visually where the CAD of the time was not sufficient, in this way further mechanical modifications could be made! info Domenico Calì (ex Texas Instruments employee) Another particular reason for the transparent case was to follow the behavior of the flexible PCB combined with the rubber keyboard, elements introduced for the first time at TI by us in Rieti. Info Gaetano Perrella (ex Texas Instruments employee)

Model: TI-30 D Battery: 2 x AA Adapter: Year: 1982Chip: TP0456 (CD4565) Info: I must thank the family of Massimo Di Pietro, former Texas Instruments employee of the Cittaducale (Rieti) office, in particular his daughter Francesca and her husband Antonio who donated many databooks, calculators and personal paper material of their father Massimo to our ODV. A thousand thanks

First lcd and Slimline lcd

Model: TI-30 II Battery: 2 x LR44 Adapter: Year: 1983Chip: CD4565 Info: first LCD and slimline LCD

First lcd and Slimline lcd

Model: TI-30 lcd Battery: 2 x AA Adapter: Year: 1980Chip: TP0320-4 or CD3202 Info: first LCD and slimline LCD

Model: TI-30 LED Battery: 9 volt or RK2 Adapter: AC9132 or AC9182 Year: 1976 Price: Lire 19.000 + 14 % ivaChip: TMC0981 Info: In the photo below, the test calculator used in the Rieti plant to test the TMC0981 chips. From an advertisement of the time! The most Famous. The TI-30 scientific calculator is more famous because it is the best-selling in the world (10 million units). In fact, no other calculator, at the same price, can give you the same performance at the same quality level. With the TI-30 you have the 8-digit display. The AOS (algebraic operating system) to set the expressions in the same sequence in which you write them, 15 levels of parentheses, memory, trigonometric functions, plus with the security of TI assistance even after a one year warranty!

display ti30 Here's a nice display for the famous TI-30 LED. They could have inserted a small wafer into this PCB and then covered it with resin or soldered the integrated circuit, the TMC0981.

Model: TI-30 Braillotron Battery: ni-cdAdapter: yes Year: 1980Chip: TMC0981 Info:The TI-30 was introduced mid of 1976 and found soon its way to the vision impaired people. The German company Schoenherr developed already in 1975 a refreshable Braille display and introduced in 1978 this Braillotron. Since 1994 the company Schoenherr GmbH refirmed as EHG Handy Tech Elektronik GmbH and introduced in 1985 with the Galixa Speech a scientific calculator with natural voice speech output and later the Galixa Braille a scientific calculator with speech output and a 10-cell braille display. This Schoenherr Braillotron was manufactured till 1985. Another approach to solve the communication with vison impaired people could be found in talking calculators like the TSI speech+ and the Orbit TI-34.

LCD-1982-1987

Model: TI-30 slr Battery: solar Adapter: Year: 1984Chip: Toshiba T6974S Info:

LCD-1982-1987

Model: TI-30 solar plus Battery: solar Adapter: Year: 1987Chip: T6974s Toshiba Info: modern LCD 1982 - 1987

LCD-1982-1987

Model: TI-30 stat Battery: 3 x LR44 Adapter: Year: 1985Chip: CD4557A Info: modern LCD 1982 - 1987

Model: TI-30 test Battery: 2 x LR44Adapter: Year: 1985Chip: CPU: Toshiba T9948A Info: Calculator donated by Massa Gennaro in 2023 during the 2nd edition "the story with Texas Instruments" in Rieti, (World Chili Pepper Fair). This rare calculator is a proof test for plastic material.