Device, characteristics and disassembly of alternating current transformer, on the example . Beginner radio amateurs, often it is interesting to know how one or another device or unit is arranged, as well as radio metal, even if simple. Today I will tell you how the popular network is arranged, I decided to disassemble it, since I didn't need it - with such not modern stresses, but to collect lamp amplifier did not want. The transformer has long been lying in the closet while occupying quite a lot of space, and the weight is huge, but a little is a sense.

So, the problem of the transformer is an increase or decrease in voltage without changing the frequency. Structurally, this transformer has several diode bridges on the panel, quenching a powerful resistor, and a distribution and connecting panel for connecting.

Let's start disassembly - the discharge of the plates and remove the clamp that squeezes the plates of the magnetic pipeline so that he does not rattle and did not go down during operation.

We knock out a pair of plates and smear the screwdriver, the plates are sh-shaped with a separate closing plate.

After pulled out a couple of plates, the rest are tapping with a light hammer and disassemble while the plates will not remain completely.

It turns out a rather large bunch of iron, which is no longer needed, but if you are going to collect another transformer, then do not lose the plates.

This is followed by a cardboard frame of windings on which the coils themselves are wound up, the low-voltage winding with the biggest current is on top, there are 6-volt winding windings of lamps, then all other windings with less current, and the primary winding is located closest to the core. to the network 220 V.

Each layer of winding is insulated with paraffin and special paper. Wire winding is a copper single-core winding wire covered with varnish insulation. The coils were dulling with a neat round to the twist.

A transformer works so - a voltage is supplied to the primary winding. Due to this, the magnetic field occurs in the magnetic circuit breed, which is then induced in the secondary windings. The voltage depends on the number of turns, and the current maximum is usually from the thickness of the turns.

Here is the information describing TSSH-170 from the Directory: Single-phase low-voltage power transformers TCSH-170 type applied in the power supply devices of the CHLT-40 black and white television receivers, ULT-47-W and ULT-50-w. TSSH-170 transformers are made on armored chipped magnetic pipelines sh30 * 60. Electrical parameters of TSSH-170 transformers:

Primary winding

• 1 - 3 127 0,6
• 1 - 2 - 5 - 6 220 0,35
• 4 - 6 127 0,6

Secondary winding

• Conclusions of windings voltage, in the current, and
• 7 - 8 74 0,4
• 9 - 10 127 0,6
• 11 - 12 6,35 3,2
• 13 - 14 6,35 0,3

Second version of the windings

• Conclusions of the windings The number of turns of the brand and diameter of the wire resistance, Ohm
• 1 - 2 200 PEV-1 0.59 2.6
• 2 - 3 30 PEV-1 0.59 0.4
• 4 - 5 30 PEV-1 0.59 0.4
• 5 - 6 200 PEV-1 0.59 2.6
• 7 - 8 139 PEV-1 0.47 5.5
• 9 - 10 242 PEV-1 0.55 6.8
• 11 - 12 12.5 PEV-1 1.25 0.1
• 13 - 14 12 PEV-1 0.51 0.2

TSSH-170 transformers are designed to connect to an AC voltage of 110, 127, 220 or 237 V with a frequency of 50 Hz. Allowable voltage deviations and power frequencies do not exceed the values \u200b\u200bset by state standards, and lie within ± 5 and 0.1%, respectively.

Technological processes impregnating transformer windings, their sealing and lacquer coating after installation increase the service life of both the transformers themselves and the reliability of the equipment as a whole. TSSH-170 type transformers are designed for installation on a metal chassis of a TV power supply with an additional fastening of four screws. Winding transformers on armor magnetic cores are located on one coil.

The insulation resistance between windings, as well as between windings and metal parts of the transformer under normal operating conditions at least 100 MΩ. The insulation resistance of the transformer winding at elevated humidity and temperature is reduced to 10 MΩ. In this case, the change in the main electrical parameters does not exceed ± 10%.

The program for calculating transformers can be calculated.

It is known that power supplies are an integral part of radio engineering devices to which a number of requirements are presented; They are a complex of elements, instruments and devices producing electric energy and transforming it to the species necessary to ensure the required working conditions of radio devices.

Power transformers, TS-160, TSA-160-1, TS-160-1, TS-160-2, TS-160-3, TS-160-4, TSSH-160, TSSH-170, TSSH-170-3 .

This series of transformers produced both on cut, rod cores from steel tape, E-320 brand, so on and armored cores made from stamped W-shaped wiring plates. All of them were developed and intended mainly to power the television receivers of the black and white image and household radio equipment.

It must be borne in mind that the motch data given here may differ on your transformers you have Due to the changes in the factors of manufacturers, time stages and other conditions and should be taken only as the basis. If necessary, determine a more accurate number of turns of the windings of the available transformer, wrap an additional winding with a known amount of turns, measure the voltage on it and calculate your transformer on it.

Transformers on armor cores, TSSH-160, TSSH-170, TSSH-170-3.

Transformer Silence TSSH-160, interchangeable with TSSH-170 and TSSH-170-3 transformers.
Power transformers TSSH-160 and TSSH-170, differ from the TSSH-170-3 transformer only by the fact that the last network winding is made on only 220 volts, the output of the network winding under the numbers 1 - 2 and the further numbering of secondary windings continues Numbers 3, that is, if instead of the TSSH-160 transformer, or TSSH-170 put TSSH-170-3, then the PETals 3-4 TSSH-170-3, the wires are soldered to the petals 7-8 in TSSH-160 transformers and TSSH-170, well, so on according to the scheme.
The network 220 volts to the primary winding of TSSH-160 and TSSH-170 transformers is connected to the terminals 1 and 6, while it is necessary to close the conclusions 2 and 5. The TSSH-170-3 transformer, the network 220 volts to the primary winding, is connected to Conclusions 1 and 2.

Picture 1.
Appearance and the TSSH-160 transformer scheme, TSSH-170, TSSH-170-3.

Table 1.Motional data of TSSH-160 transformers, TSSH-170, TSSH-170-3.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
TSSH-160. (TSSH-170)		1-2 2-3 4-5 5-6 7-8 9-10 11-12 13-14	200 30 30 200 139 242 12,5 12	PEV-1 0,59 PEV-1 0,59 PEV-1 0,59 PEV-1 0,59 PEV-1 0.47 PEV-1 0,55 2XPEV-1 1,25 PEV-1 0,51	110 17 17 110 74 130 6,4 6,3	0,7 0,7 0,7 0,7 0,4 0,6 8,5 0,3

Transformers on rod cores TS-160, TSA-160-1, TS-160-1, TS-160-2, TS-160-3, TS-160-4.

The transformers of this series were intended for the power of the tube radio equipment, and for radio equipment performed on semiconductor devices.
To the primary winding of power transformers, such as TS-160.The voltage of the network 220 volts is connected to the outputs 1 and 1 ", while the conclusions 2 and 2 are set to each other.
In transformers TS-160-2 and TS-160-4, conclusions 2 and 2 "are already structurally interconnected, and the network is connected only to the conclusions 1 and 1"

Transformers power, TS-160, TSA-160-1, TS-160-1.

Dedicated for use in the power blocks of tube, lamp-semiconductor television radio equipment.
Transformers are in principle the same and interchangeable among themselves. They differ from each other only a slight difference of voltages of some secondary windings. The TAC transformer differs from TC transformers only in that it has a winding with an aluminum wire.

The primary winding of transformers can consist only of two sections of 110 volts, that is, only 220 volts. The conclusions of the network winding in this case will be 1-3, the output 2 is present.
The network 220 volts in this case is connected to the outputs 1-1. Connections 3-3 "are interconnected.

Figure 2.
Scheme of transformer TS-160, TS-160-1.

Table 2.Motional data transformers TS-160, TS-160-1.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 2-3 1"-2" 2"-3" 5-6 5"-6" 7-8 7"-8" 9-10 9"-10" 11-12 11"-12"	414 64 414 64 129 129 253 253 27 27 26 26	PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,47. PAL 0,47. PAL 0,51. PAL 0,51. PAL 1,35. PAL 1,35. Pal 0.41 Pal 0.41	110 17 110 17 31 31 64 64 6,5 6,5 6,4 6,4	0,75 0,75 0,75 0,75 0,4 0,4 0,5 0,5 3,5 3,5 0,3 0,3
		1-2 2-3 1"-2" 2"-3" 5-6 5"-6" 7-8 7"-8" 9-10 9"-10" 11-12 11"-12"	414 64 414 64 158 158 250 250 26 26 26 26	PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,47. PAL 0,47. PAL 0,51. PAL 0,51. PAL 1,35. PAL 1,35. Pal 0.57. Pal 0.57.	110 17 110 17 39 39 61 61 6,4 6,4 6,4 6,4	0,75 0,75 0,75 0,75 0,4 0,4 0,5 0,5 3,5 3,5 0,35 0,35

* - The numbers of the conclusions near the TS-160 transformer correspond to the numbers of the conclusions of the transformer squeezed on the frameworks.
The TS-160 transformers may have a side contact plate with its numbering from 1 to 14. The numbering of the conclusions on the contact plate will be the following;
1-11-8 - the primary winding (network 220 volts 1-8), 11 - the average point of this primary winding (110 + 110);
2-6-3 - 33 + 33 volts (6 - the average point of this winding);
9-4-10 - 64.5 + 64.5 volts (4 - average point of this winding);
5-12 - Gauge 6.3 V. 0,3a;
13-14 - Glow 6.4 to 7,5A (two windings 9-10 and 9 "-10" are connected in parallel)

Silence transformer, TS-160-2.

TC-160-2 transformer is designed to supply semiconductor radio equipment.


The appearance of the TC-160-2 transformer is depicted in Figure 3, the transformer diagram is shown in Figure 4, and the motor data and electrical characteristics in Table 3.

Figure 3.
The appearance of the TS-160-2 transformer.

Figure 4. Transformer circuit TS-160-2.

Table 3.Transformer motor data TS-160-2.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 1"-2" 3-4 3"-4" 5-6 5"-6" 7-8 7"-8" 9-10 9"-10"	414 414 42 42 68 68 75 75 210 210	PEV-1 0.69 PEV-1 0,69 PEV-1 0.95 PEV-1 0.95 PEV-1 0.63 PEV-1 0.63 PEV-1 0.95 PEV-1 0.95 PEV-1 0.37 PEV-1 0.37	110 110 10,5 10,5 17,5 17,5 19 19 54 54	0,65 0,65 1,8 1,8 0,6 0,6 1,8 1,8 0,25 0,25

Silence transformer, TS-160-3.

Silence transformer, TS-160-3, similar to and interchangeable with TC-150-1 transformer. The primary winding of the transformer may have two versions, it is 127 and 220 volts, as in the diagram shown in Figure 6, and only by 220 volts, is the transformer there are no windings of the IB and IB "and conclusions 3 and 3".
The appearance of the TC-160-3 transformer is shown in Figure 5, the transformer circuit is shown in Figure 6, and the motor data and electrical characteristics in Table 4.

Figure 5.
The appearance of the TC-160-3 transformer.

Figure 6.
Transformer circuit TS-160-3.

Table 4. Motional data transformers TS-160.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 2-3 1"-2" 2"-3" 4-5 4-6 4-7 4"-5" 4"-6" 4"-7"	362 56 362 56 27 36 46 27 36 46	PEV-1 0,56 PEV-1 0,56 PEV-1 0,56 PEV-1 0,56 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55	110 17 110 17 7,0 9,5 13,0 7,0 9,5 13,0	0,65 0,65 0,65 0,65 6,0 6,0 6,0 6,0 6,0 6,0

Transformer power, TS-160-4.

The transformer is specialized, designed to supply semiconductor equipment and equipment performed on chips. Used for power supplies.
The core of a split transformer, type pl, is made of Steel tape E-320, cross section 20x40x50.
The voltage of the 220 volt network to the primary winding of the transformer, connects to the outputs 1 and 1.
The appearance of the TC-160-4 transformer, depicted in Figure 7, the transformer circuit is shown in Figure 8, and the motor data and electrical characteristics in Table 5.

Figure 7.
Appearance TS-160-4.

Figure 8.
Transformer circuit TS-160-4.

Table 5.Transformer motor data TS-160-4.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 1"-2" 3-4 3"-4" 5-6 5"-6" 7-7" 9-10 9"-10"	414 414 36 36 36 36 75+75 90 90	PEV-1 0,56 PEV-1 0,56 PEV-1 1.8 PEV-1 1.8 PEV-1 0,64 PEV-1 0,64 PEV-1 0,64 PEV-1 0.18 PEV-1 0.18	110 110 9,0 9,0 9,0 9,0 38 24 24	0,7 0,7 7,0 7,0 0,85 0,85 0,85 0,06 0,06

TS-160 transformers, TSSH-160, TSSH-170, TSSH-170-3

Transformers are available on armor and rod cores and are designed to feed household radio television equipment.

Transformers on armor cores.

TSSH-160 transformer, similar to TSSH-170 transformers, TSSH-170-3. Made on armored core sh30x60. All transformers are interchangeable. The difference between TSSH-170 and TSSH-170-3, in the latter the network winding is made only by 220 volts (Scheme 2 in Figure 1), the findings of the primary winding 1 - 2 and the further numbering of the windings continues from the number 3 (at TSSH-160, TSSH -170 from number 7), i.e., instead of TSSH-170, put TSSH-170-3, then to the petals 3-4 TSSH-170-3, the wires appropriate to the petals 7-8 TSSH-170, etc.
The voltage of the network 220 volts in TSSH-160 and TSSH-170 is connected to the terminals 1 and 6, while the jumper is installed between the TSSH-170-3 converters (Scheme 2 in Figure 1), the voltage 220 volts is connected to the outputs. 1 and 2.

Picture 1.
Appearance and diagram of TSSH-160 transformers, TSSH-170, TSSH-170-3.

Table 1. Motional data of TSSH-160 transformers, TSSH-170, TSSH-170-3.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
TSSH-160. (TSSH-170)		1-2 2-3 4-5 5-6 7-8 9-10 11-12 13-14	200 30 30 200 139 242 12,5 12	PEV-1 0,59 PEV-1 0,59 PEV-1 0,59 PEV-1 0,59 PEV-1 0.47 PEV-1 0,55 2XPEV-1 1,25 PEV-1 0,51	110 17 17 110 74 130 6,4 6,3	0,7 0,7 0,7 0,7 0,4 0,6 8,5 0,3

Transformers on rod cores.

On rod transformers TS-160. The voltage of the 220 volt network is connected to the outputs 1 and 1, and the jumper between the outputs 2 and 2 is installed.

Transformer TS-160, TS-160-1

Figure 2.
Scheme of transformer TS-160, TS-160-1.

Table 2. Motional data transformers TS-160, TS-160-1.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 2-3 1"-2" 2"-3" 5-6 5"-6" 7-8 7"-8" 9-10 9"-10" 11-12 11"-12"	414 64 414 64 129 129 253 253 27 27 26 26	PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,47. PAL 0,47. PAL 0,51. PAL 0,51. PAL 1,35. PAL 1,35. Pal 0.41 Pal 0.41	110 17 110 17 31 31 64 64 6,5 6,5 6,4 6,4	0,65 0,65 0,65 0,65 0,4 0,4 0,5 0,5 3,5 3,5 0,25 0,25
		1-2 2-3 1"-2" 2"-3" 5-6 5"-6" 7-8 7"-8" 9-10 9"-10" 11-12 11"-12"	414 64 414 64 158 158 250 250 26 26 26 26	PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,69. PAL 0,47. PAL 0,47. PAL 0,51. PAL 0,51. PAL 1,35. PAL 1,35. Pal 0.57. Pal 0.57.	110 17 110 17 39 39 61 61 6,4 6,4 6,4 6,4	0,65 0,65 0,65 0,65 0,4 0,4 0,5 0,5 3,5 3,5 0,35 0,35

Transformer TS-160-2

The transformer is designed to supply semiconductor equipment.

The voltage of the 220 volt network connects to the outputs 1 and 1.
The appearance of the TC-160-2 transformer in Figure 3.

Figure 3.
The appearance of the TS-160-2 transformer.

Figure 4. Transformer circuit TS-160-2.

Table 3. Transformer motor data TS-160-2.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 1"-2" 3-4 3"-4" 5-6 5"-6" 7-8 7"-8" 9-10 9"-10"	414 414 42 42 68 68 75 75 210 210	PEV-1 0.69 PEV-1 0.69 PEV-1 0,95 PEV-1 0,95 PEV-1 0,63 PEV-1 0,63 PEV-1 0,95 PEV-1 0,95 PEV-1 0.37 PEV-1 0.37	110 110 10,5 10,5 17,5 17,5 19 19 54 54	0,65 0,65 1,8 1,8 0,6 0,6 1,8 1,8 0,25 0,25

Transformer TS-160-3

TC-160-3 transformer, similar to the TC-150-1 transformer and is produced with two types of primary winding, it is 127 and 220 volts (scheme in Figure 6), and only 220 volts (there are no windings of IB and IB "and conclusions 3 and 3 "primary winding).
The appearance of the TC-160-3 transformer is shown in Figure 5.

Figure 5.
The appearance of the TC-160-3 transformer.

Figure 6.
Transformer circuit TS-160-3.

Table 4. Motional data transformers TS-160.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 2-3 1"-2" 2"-3" 4-5 4-6 4-7 4"-5" 4"-6" 4"-7"	362 56 362 56 27 36 46 27 36 46	PEV-1 0,56 PEV-1 0,56 PEV-1 0,56 PEV-1 0,56 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55 PEV-1 1.55	110 17 110 17 7,0 9,5 13,0 7,0 9,5 13,0	0,65 0,65 0,65 0,65 6,0 6,0 6,0 6,0 6,0 6,0

TS-160-4 transformer

The transformer is designed to supply semiconductor equipment. Used for example in power supply units.
Core transformer PL20X40x50.
The voltage of the 220 volt network connects to the outputs 1 and 1.

Figure 7.
Appearance TS-160-4.

Figure 8.
Transformer circuit TS-160-4.

Table 5. Transformer motor data TS-160-4.

Type of transformer	Core	NN conclusions	Number of Vitkov	Brand and diameter of the wire, mm	Voltage, nom. IN	Current, nom. BUT
		1-2 1"-2" 3-4 3"-4" 5-6 5"-6" 7-7" 9-10 9"-10"	414 414 36 36 36 36 75+75 90 90	PEV-1 0,56 PEV-1 0,56 PEV-1 1.8 PEV-1 1.8 PEV-1 0,64 PEV-1 0,64 PEV-1 0,64 PEV-1 0.18 PEV-1 0.18	110 110 9,0 9,0 9,0 9,0 38 24 24	0,7 0,7 7,0 7,0 0,85 0,85 0,85 0,06 0,06

Explosion protection: RV 3B

Purpose
Transformer Dry Shaft TSSH is designed to supply lighting networks, as well as control devices and automation of coal mines in accordance with the requirements of PB 05-618-03.
Climatic execution UHL and T, placement category 5 according to GOST 15150-69.
The ambient temperature from minus 10 ° C to 35 ° C, relative humidity up to 100% at a temperature of 35 ° C.
OKP code (TN VED) 31 4879 (8504 32 800 0)

Application area

in mines hazardous gas (methane) and coal dust when working with the RU-127 leakage relay;
in the flourish industry;
for powering consumers located on an open surface under the influence of atmospheric precipitation.

Design
The transformer consists of a box of conclusions, hulls, covers and cores with coils. The housing is a welded steel structure. The magnetic circuit breeded from plates of electrical steel and is pulled by the corners using insulated studs and bolts. Coils are strengthened on the magnetic wires with wooden wedges and rods. The coil consists of two windings: low voltage NN and high voltage Vn. The low voltage winding is wrapped with a wire of PSD-3.53, and high voltage winding with a PSD-1.9 wire. The coils are saturated with varnish followed by drying at a temperature of 100 ° ÷ 120 ° C. Taps of coils are connected to the corresponding passage of the terminals of the conclusions according to the schemes.

Modifications:

TSSH-2,5-0.66 / 0.38-133 - Transformer dry shaft blasting, intended for powering lighting networks. Rated power of 2.5 kVA. Rated high voltage voltage 660 voltage in low voltage winding 133/230 V PB EXDI

TSSH-2,5-0.66 / 0.38-38 - Transformer Dry shaft burst, intended for powering lighting networks. Rated power of 2.5 kVA. Rated high voltage voltage voltage 380 in low voltage winding 38V

TSSH-4-0.66 / 0.38-230 / 133 - Transformer Dry shaft blasting, intended for powering lighting networks. Rated power of 4 kVA. Rated high voltage voltage 660 voltage in low voltage winding 133/230 V

TSSH-4-0.66 / 0.38-38 - Transformer Dry shaft blasting, designed to power the lighting networks. Rated power of 4 kVA. Rated high voltage voltage voltage 380 in low voltage winding 38V

TSSH-4-1.14 / 0.66-230 / 113 - Transformer Dry shaft blasting, designed to power lighting networks. Rated power of 4 kVA. Rated voltage of high voltage winding 1140 in low voltage winding 133/230 V

TSSH-4-1.14 / 0,66-38 - transformer dry shaft burst, intended for powering lighting networks. Rated power of 4 kVA. Rated high voltage voltage 1140 in low voltage winding 38 V

TSSH-5-0.66 / 0.38-230 / 133 - Transformer Dry shaft, blasting, intended for powering lighting networks. Rated power of 5 kVA. Rated high voltage voltage 660 voltage in low voltage winding 133/230 V

TSSH-5-0.66 / 0.38-38 - Transformer Dry shaft burst, intended for powering lighting networks. Rated power of 5 kVA. Rated high voltage voltage voltage 380 in low voltage winding 38V

TSSH-5-1.14 / 066-230 / 113 - Transformer Dry shaft blasting, intended for powering lighting networks. Rated power of 5 kVA. Rated voltage of high voltage winding 11140 in low voltage winding 133/230 V

TSSH-5-1.14 / 066-38 - Transformer Dry shaft burst, intended for powering lighting networks. Rated power of 5 kVA. Rated high voltage voltage 1140 in low voltage winding 38 V

TSSH-6-0.66 / 0.38-230 / 133 - Transformer dry shaft blastingproof, intended for powering lighting networks. Rated power of 6 kVA. Rated high voltage voltage 660 voltage in low voltage winding 133/230 V

TSSH-6-0.66 / 0.38-38 - Transformer Dry shaft burst, intended for powering lighting networks. Rated power of 6 kVA. Rated high voltage voltage voltage 380 in low voltage winding 38V

TSSH-6-1.14 / 066-230 / 113 - Transformer dry shaft blasting, intended for powering lighting networks. Rated power of 5 kVA. Rated voltage of high voltage winding 11140 in low voltage winding 133/230 V

TSSH-6-1.14 / 066-38 - Transformer Dry shaft blasting, intended for powering lighting networks. Rated power of 6 kVA. Rated high voltage voltage 1140 in low voltage winding 38 V

TSSH4-0.66 / 0.38-133, TSSH-6-0.66 / 0.38 / -133 - for powering lighting lamps, electric motors and other underground electrical installations with voltage 133V, 230V, with a nominal capacity of 4 kV * A;

TSSH4-0.66 / 0.38-38, TSSH-6-0.66 / 0.38 / -38 - to power the lighting lamps and other underground electrical installations with a voltage of 38V, with a rated power of 4 kV * A;

Conditional designation when ordering and in the documentation of another product
Transformer TSSH4-0,66 / 0.38-133. Thor5 TU 12.0165494.015-90
Transformer dry shaft TSSH4-0.66 / 0.38 with voltage of NN 230 and 133V, climatic execution UHL, placement category 5

Specifications
Transformers dry shaft explosion-proof series TSSH

Name of parameter	Norm for product modification
	TSSH-4-0,66 / 0.38 / -133	TSSH-4-0.66 / 0.38 / -38
Level and view of explosion protection
Degree of protection against external influences
Nominal supply voltage: high voltage winding VN (primary), in low voltage windings of NN (secondary), in	660/380 230/133	660/380 38
Resistance to DC windings: high voltage winding VN, Ohm low voltage winding, NN, Ohm	0.9 ± 10% 0,075 ± 10%	0.9 ± 10% 0,024 ± 10%
Schemes and groups of connections	Y / y-0; Δ / y-11; Δ / δ-0; Y / Δ-11	Y / δ-11; Δ / Δ-0
Rated power, kV * a
Short circuit voltage, in
Idling current,%
Efficiency at rated load,%, not less
Service life, years, not less
Overall dimensions, mm, no more
Mass, kg, no more