TO-92

Small and cheap semiconductor package often used for transistors

The TO-92 is a widely used style of semiconductor package mainly used for transistors. The case is often made of epoxy or plastic, and offers compact size at a very low cost.

TO-92 front view^[1]

TO-92 back view^[1]

History and origin

The JEDEC TO-92 descriptor is derived from the original full name for the package: Transistor Outline Package, Case Style 92.^[1] The package is also known by the designation SOT54. By 1966 the package was being used by Motorola for their 2N3904 devices among others.^[2]

Construction and orientation

Size comparison of BJT transistor packages, from left to right: SOT-23, TO-92, TO-126, TO-3

The case is molded around the transistor elements in two parts; the face is flat, usually bearing a machine-printed part number (some early examples had the part number printed on the top surface instead). The back is semi-circularly-shaped. A line of moulding flash from the injection-moulding process can be seen around the case.

The leads protrude from the bottom of the case. When looking at the face of the transistor, the leads are commonly configured from left-to-right as the emitter, base, and collector for 2N series (JEDEC) transistors, however, other configurations are possible, such as emitter, collector, and base commonly used for 2S series (Japanese) transistors or collector, base, and emitter for many of the BC series (Pro Electron) types.

If the face has a part name made up of only one letter and a few numbers, it can be either a Japanese or a Pro Electron part number. Thus, "C1234" would likely be a 2SC1234 device, but "C547" is usually short for "BC547".

TO-92 packages with pre-bent wires; on the left to emulate a TO-18 footprint (SO-97 in BS 3934, 10A3 in DIN 41868)

The leads coming out of the case are spaced 0.05" (1.27 mm) apart. It is often convenient to bend them outward to a 0.10" (2.54 mm) spacing to make more room for wiring.^[3] Units with their leads pre-bent may be ordered to fit specific board layouts, depending on the application. Otherwise, the leads may be bent manually; however, care must be taken as they can break easily, as with any other device that is manually configured.

The physical dimensions of the TO-92 housing may vary slightly depending on the manufacturer, however, the 1.27mm lead spacing must be respected.

Advantages

Transistors of this type can be made very inexpensively and take up very little board space. Most models are readily available in large quantities from wholesale distributors.
They are easy to find in small electronics stores because of their wide usefulness, making them a popular choice for hobby work and prototyping.

Disadvantages

The main disadvantage of this style of case is the lack of heat sinking.

Transistors and ICs of these types cannot handle as much power as higher-power equivalents, such as the TO-220, and can burn out quickly if they dissipate excessive power.
There is no standard pinout for the TO-92. The American BJTs use the E-B-C pinout while their Japanese counterparts use the E-C-B pinout and some RF devices use the B-E-C pinout.^{[citation needed]}

Voltage and current

Although TO-92 devices are mainly used in low-voltage / low-current (<30 V; <1 A) applications, high-voltage (600 Volt Vce) and high-current (5 A Ic) devices are available. Nominal maximum power dissipation is less than one watt (600 mW).

Variants

For diodes or integrated circuits with two connections (e.g. temperature sensors) the middle lead is either not connected or omitted entirely.

Comparison between the E-Line/Miniplast package and the TO-92 package

In the late 1960s, Ferranti introduced a smaller package with a compatible footprint, called "E-Line".^[4]^[5] This package was later standardized as a British Standard (but not by JEDEC) and remained in production with Ferranti Semiconductors' successor companies (Plessey, Zetex Semiconductors, Diodes Incorporated^[6]). In East Germany the E-Line package was known as the "Miniplast" package and widely used by Kombinat Mikroelektronik Erfurt.

Standards

More information Standards organization, Standard ...

Standards organization	Standard	Designation for
		TO-92	E-Line/Miniplast
		TO-92	3-lead	2-lead
IEC	IEC 60191^[7]	A68
DIN	DIN 41868^[8]	10B3^{[lower-alpha 1]}
EIAJ / JEITA	ED-7500A^[9]^[10]	SC-43A
British Standards	BS 3934^[11]		SO-94^{[lower-alpha 2]}
Gosstandart	GOST 18472—88^[12]	KT-26^{[lower-alpha 3]}	—	KD-129^{[lower-alpha 4]}
Rosstandart	GOST R 57439—2017^[13]	KT-26^{[lower-alpha 3]}	—	KD-129^{[lower-alpha 4]}
Kombinat Mikroelektronik Erfurt	TGL 200-8380^[14]	—	—	L2
	TGL 11811^[7]	—	L3	—
	TGL 26713/07^[7]	F2	F3	F4

DIN 41868 also defines variants with the leads bent to emulate the footprint of other packages: 10A3 (TO-18 footprint).
BS-3934 also defines variants with the leads bent to emulate the footprint of other packages: SO-95 (TO-5 footprint), SO-96 (for flat mounting), and SO-97 (TO-18 footprint).
Russian: КТ-26
Russian: КД-129

Common components in a TO-92 package

Common transistors:

BC548, general purpose NPN transistor
BC558, general purpose PNP transistor
2N3904, general purpose NPN transistor
2N3906, general purpose PNP transistor
2N7000, N-channel FET
BS170, N-channel FET, similar to 2N7000
PN2222A, a "plastic" version of the original 2N2222 NPN transistor which came in a TO-18 package

Other common components:

MK484, AM radio integrated circuit
78Lxx series, voltage regulator integrated circuits
TL431, voltage regulator integrated circuit

References

[1]
"JEDEC TO-92 package specification" (PDF). JEDEC. Archived from the original (PDF) on June 18, 2017.
[2]
The semiconductor data book. Motorola. August 1966. Retrieved 2021-07-09.
[3]
Bourns. "Package Mechanical Information, TO-92" (PDF). Retrieved 28 February 2016.
[4]
Applications of the E-Line Plastic Encapsulated Transistor. Oldham: Ferranti Ltd. June 1969. Retrieved 2021-07-10.
[5]
"E-Line – The ultimate TO-92". Quick Reference Guide (PDF). Ferranti Semiconductors. February 1983. p. E2. Retrieved 2021-07-10.
[6]
"E-Line Package Information" (PDF). Diodes Incorporated. March 2017. Retrieved 2021-07-10.
[7]
"TGL 26713/07: Gehäuse für Halbleiterbauelemente - Bauform F" [Outline drawings for semiconductor devices; Type F] (PDF) (in German). Leipzig: Verlag für Standardisierung. June 1988. Retrieved 2021-06-15.
[8]
"Semiconductor Databook" (PDF). Heilbronn: AEG-Telefunken. pp. 17, 19. Retrieved 2021-08-20.
[9]
"EIAJ ED-7500A Standards for the Dimensions of Semiconductor Devices" (PDF). JEITA. 1996. p. 120. Retrieved 2021-06-14.
[10]
"TO-92 (SOT54)". Nexperia. 2004-11-16. Archived from the original on 2017-12-13. Retrieved 2021-07-12.
[11]
"Package Outlines". Quick Reference Guide (PDF). Ferranti Semiconductors. February 1983. p. PO14. Retrieved 2021-07-10.
[12]
"ГОСТ 18472—88 ПРИБОРЫ ПОЛУПРОВОДНИКОВЫЕ - Основные размеры" [GOST 18472—88 Semiconductor devices - basic dimensions] (PDF) (in Russian). Rosstandart. 1988. p. 33-34,55. Retrieved 2021-06-17.
[13]
"ГОСТ Р 57439—2017 ПРИБОРЫ ПОЛУПРОВОДНИКОВЫЕ - Основные размеры" [GOST R 57439—2017 Semiconductor devices - basic dimensions] (PDF) (in Russian). Gosstandart. 2017. p. 41-42,68-69. Retrieved 2021-06-17.
[14]
"TGL 200-8380: Halbleiterbauelemente - Halbleiterdioden Verlustleistung unter 1 Watt - Bauformen" [Semiconductor Devices - Designs for Semiconductor Diodes - Dissipation power less 1 Watt] (PDF) (in German). Leipzig: Verlag für Standardisierung. 1981. Retrieved 2021-07-12.

External links

Wikimedia Commons has media related to TO-92 transistor packages.

TO-92 Package, EESemi.com
Essay about TO92 housings (German) by Dipl.-Ing. Bernd Wiebus at German national library server.

Share this article:

This article uses material from the Wikipedia article TO-92, and is written by contributors. Text is available under a CC BY-SA 4.0 International License; additional terms may apply. Images, videos and audio are available under their respective licenses.