Reference data for transformers of the TS-160 series - TS-160, TSSh-160, TSSh-170, TSSh-170-3. Photos, winding connection diagram. Voltages and currents of input-output windings, number of turns and wire diameter.
Transformer TSSh-160 is similar to transformers TSSh-170, TSSh-170-3. Made on an armored core Ш30х60. All transformers are interchangeable. The difference between TSSh-170 and TSSh-170-3, in the latter the network winding is made only at 220 volts (diagram 2 in Figure 1), the primary winding terminals are 1 - 2 and further numbering of the windings continues from number 3 (in TSSh-160, TSSh -170 from number 7), that is, if instead of TSSh-170 you install TSSh-170-3, then wires suitable for petals 7-8 of TSSh-170, etc. are soldered to petals 3-4 of TSSh-170-3. The network voltage is 220 volts for TSSh-160 and TSSh-170, connected to terminals 1 and 6, with a jumper installed between terminals 2 and 5. For the transformer TSSh-170-3 (diagram 2 in Figure 1), a voltage of 220 volts is connected to the terminals 1 and 2.
Diagram and winding data of transformer TS 160-4
The mains voltage of 220 volts is connected to terminals 1 and 1".
Diagram and winding data of the transformer TSSh-160
Picture 1.
Appearance and diagram of transformers TSSh-160, TSSh-170, TSSh-170-3.
Table 1. Winding data of transformers TSSh-160, TSSh-170, TSSh-170-3.
Transformer type | Core | NN pins | Number of turns | Wire brand and diameter, mm | Voltage, nom. IN | Current, nom. A |
TSSH-160 | 1-2 | 200 | PEV-1 0.59 | 110 | 0,7 |
For core transformers TS-160 mains voltage 220 volts is connected to terminals 1 and 1", and a jumper is installed between terminals 2 and 2".
Figure 2.
Transformer diagram TS-160, TS-160-1.
Table 2. Winding data of transformers TS-160, TS-160-1.
Transformer type | Core | NN pins | Number of turns | Wire brand and diameter, mm | Voltage, nom. IN | Current, nom. A |
1-2 | 414 | PEL 0.69 | 110 | 0,65 |
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1-2 | 414 | PEL 0.69 | 110 | 0,65 |
Figure 3.
Appearance of the transformer TS-160-2.
Figure 4.Diagram of transformer TS-160-2.
Table 3. Winding data of transformer TS-160-2.
Transformer type | Core | NN pins | Number of turns | Wire brand and diameter, mm | Voltage, nom. IN | Current, nom. A |
1-2 | 414 | PEV-1 0.69 | 110 | 0,65 |
The TS-160-3 transformer is similar to the TS-150-1 transformer and is available with two types of primary windings: 127 and 220 volts (diagram in Figure 6), and only 220 volts (there are no windings Ib and Ib and pins 3 and 3" primary winding).
The appearance of the TS-160-3 transformer is shown in Figure 5.
Figure 5.
Appearance of the transformer TS-160-3.
Figure 6.
Diagram of transformer TS-160-3.
Table 4.Winding data of transformers TS-160.
Transformer type | Core | NN pins | Number of turns | Wire brand and diameter, mm | Voltage, nom. IN | Current, nom. A |
1-2 | 362 | PEV-1 0.56 | 110 | 0,65 |
The transformer is designed to power semiconductor equipment. Used for example in computer power supplies.
Transformer core PL20x40x50
The mains voltage of 220 volts is connected to terminals 1 and 1".
Figure 7.
Appearance of TS-160-4.
Figure 8.
Diagram of transformer TS-160-4.
Table 5. Winding data of transformer TS-160-4.
Transformer type | Core | NN pins | Number of turns | Wire brand and diameter, mm | Voltage, nom. IN | Current, nom. A |
1-2 | 414 | PEV-1 0.56 | 110 | 0,7 |
Please note that the skein data given here may vary.on your existing transformers,due to changes in specifications, manufacturers, the passage of time and other conditions and they should be taken only as a basis. If you need to determine more accurately the number of turns of the windings of your existing transformer, wind an additional winding with a known number of turns, measure the voltage on it and use the data obtained to calculate your transformer.
Picture 1.
Appearance and diagram of transformers TSSh-160, TSSh-170, TSSh-170-3.
Table 1.Winding data of transformers TSSh-160, TSSh-170, TSSh-170-3.
Transformer type |
Core |
NN pins |
Number of turns |
Wire brand and diameter, mm |
Voltage, nom. IN |
Current, nom. A |
TSSH-160 |
1-2 |
200 |
PEV-1 0.59 |
110 |
0,7 |
Transformers of this series were intended both for powering tube television and radio equipment, and for radio equipment made on semiconductor devices.
To the primary winding of power transformers, such as TS-160, the mains voltage of 220 volts is connected to terminals 1 and 1", while terminals 2 and 2" are connected to each other.
For transformers TS-160-2 and TS-160-4, pins 2 and 2" are already structurally connected to each other, and the network is connected only to pins 1 and 1"
Intended for use in power supplies for lamp, lamp-semiconductor television and radio equipment.
Transformers are basically the same and interchangeable with each other. They differ from each other only by a slight difference in the voltages of some secondary windings. The TSA transformer differs from the TS transformers only in that its windings are made of aluminum wire.
The primary winding of transformers can only consist of two sections of 110 volts, that is, only 220 volts. The terminals of the network winding in this case will be 1-3, terminal 2 will be absent.
The 220 volt network in this case is connected to terminals 1-1". Terminals 3-3" are connected to each other.
Figure 2.
Transformer diagram TS-160, TS-160-1.
Table 2.Winding data of transformers TS-160, TS-160-1.
Transformer type |
Core |
NN pins |
Number of turns |
Wire brand and diameter, mm |
Voltage, nom. IN |
Current, nom. A |
1-2 |
414 |
PEL 0.69 |
110 |
0,75 |
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1-2 |
414 |
PEL 0.69 |
110 |
0,75 |
Figure 3.
Appearance of the transformer TS-160-2.
Figure 4.Diagram of transformer TS-160-2.
Table 3.Winding data of transformer TS-160-2.
Transformer type |
Core |
NN pins |
Number of turns |
Wire brand and diameter, mm |
Voltage, nom. IN |
Current, nom. A |
1-2 |
414 |
PEV-1 0.69 |
110 |
0,65 |
The power transformer, TS-160-3, is similar and interchangeable with the transformer TS-150-1. The primary winding of the transformer can have two versions: 127 and 220 volts, as in the diagram shown in Figure 6, and only 220 volts - the transformer does not have windings Ib and Ib" and terminals 3 and 3".
The appearance of the TS-160-3 transformer is shown in Figure 5, the transformer diagram is shown in Figure 6, and the winding data and electrical characteristics are in Table 4.
Figure 5.
Appearance of the transformer TS-160-3.
Figure 6.
Diagram of transformer TS-160-3.
Table 4.Winding data of transformers TS-160.
Transformer type |
Core |
NN pins |
Number of turns |
Wire brand and diameter, mm |
Voltage, nom. IN |
Current, nom. A |
1-2 |
362 |
PEV-1 0.56 |
110 |
0,65 |
The transformer is specialized, designed to power semiconductor equipment and equipment made on microcircuits. Used for computer power supplies.
The transformer core is split, type PL, made of steel tape E-320, section 20x40x50.
The mains voltage is 220 volts to the primary winding of the transformer, connected to terminals 1 and 1".
The appearance of the TS-160-4 transformer is shown in Figure 7, the transformer diagram is shown in Figure 8, and the winding data and electrical characteristics are in Table 5.
Figure 7.
Appearance of TS-160-4.
Figure 8.
Diagram of transformer TS-160-4.
Table 5.Winding data of transformer TS-160-4.
Transformer type |
Core |
NN pins |
Number of turns |
Wire brand and diameter, mm |
Voltage, nom. IN |
Current, nom. A |
1-2 |
414 |
PEV-1 0.56 |
110 |
0,7 |
Single-phase low-voltage power transformers of the TSSh-170 type are used in power supply devices for black-and-white television receivers ULT-40, ULT-47-Sh and ULT-50-Sh.
Transformers TSSh-170 are manufactured on armored laminated magnetic cores Ш30*60.
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Table 1. Electrical parameters of transformers TSSH-170
Transformers TSSh-170 are designed for connection to an alternating current network with a voltage of 110, 127, 220 or 237 V with a frequency of 50 Hz. Permissible deviations in voltage and frequency of the power supply network do not exceed the values established by state standards and lie within ±5 and 0.1%, respectively.
The design of the transformer type TSSh-170 and manufacturing technology ensure reliable operation without breaks in the windings and other damage, as well as the appearance of corrosion on metal parts under repeated cyclic exposure to temperatures, high humidity and mechanical loads specified in the operating conditions of television receiver power transformers. Technological processes of impregnation of transformer windings, their sealing and varnishing after installation increase the service life of both the transformers themselves and the reliability of the equipment as a whole.
Transformers type TSSh-170 are designed for installation on a metal chassis of a TV power supply with additional fastening with four screws.
The winding data of the windings and electrical parameters of transformers of the TSSh-170 type are given in Table. 1 and 2. The windings of transformers on armored magnetic cores are located on one coil.
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Table 2. Winding data of transformers TSSh-170
The circuit diagram of the TSSH-170 transformer is shown in Fig. 1.
Fig.1. Schematic diagram of a transformer type TSSh-170.
The insulation resistance between the windings, as well as between the windings and metal parts of the transformer under normal operating conditions is at least 100 MOhm. The insulation resistance of the transformer windings at elevated humidity and temperature is reduced to 10 MOhm. In this case, the change in the main electrical parameters does not exceed ±10%, measured before the influence of all external factors specified in the operating conditions.
Literature
Sidorov I.N., Skornyakov S.V. Transformers of household radio-electronic equipment: Directory. - M: "Radio and Communication", 1999