Transformers TS-160, TSH-160, TSH-170, TSH-170-3

Transformers are produced on armored and rod cores and are designed to power household radio-television equipment.

Armored core transformers.

TSSH-160 transformer, similar to TSSH-170, TSSH-170-3 transformers. Made on an armored core Ш30х60. All transformers are interchangeable. The difference between TSSH-170 and TSSH-170-3, for the latter, the network winding is made only at 220 volts (diagram 2 in Figure 1), the conclusions of the primary winding are 1 - 2 and further numbering of the windings continues from number 3 (for TSSH-160, TSSH -170 from number 7), that is, if instead of TSSH-170 you put TSSH-170-3, then to the petals 3-4 TSSH-170-3, wires are soldered, suitable to the petals 7-8 TSSH-170, etc.
The mains voltage of 220 volts for TSSH-160 and TSSH-170 is connected to terminals 1 and 6, while a jumper is installed between terminals 2 and 5. At the TSSH-170-3 transformer (diagram 2 in Figure 1), a voltage of 220 volts is connected to the terminals 1 and 2.

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, no. AND
TSSH-160 (TSH-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

Rod core transformers.

For rod transformers TS-160 mains voltage of 220 volts is connected to terminals 1 and 1 ", while a jumper is installed between terminals 2 and 2".

Transformer TS-160, TS-160-1

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, no. AND
		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	PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.47 PEL 0.47 PEL 0.51 PEL 0.51 PEL 1.35 PEL 1.35 PEL 0.41 PEL 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	PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.47 PEL 0.47 PEL 0.51 PEL 0.51 PEL 1.35 PEL 1.35 PEL 0.57 PEL 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 power semiconductor equipment.

The mains voltage of 220 volts is connected to terminals 1 and 1 ".
The external view of the TS-160-2 transformer is shown in Figure 3.

Figure 3.
External view of the TS-160-2 transformer.

Figure 4. Transformer circuit TS-160-2.

Table 3. Winding data of the TS-160-2 transformer.

Transformer type	Core	NN pins	Number of turns	Wire brand and diameter, mm	Voltage, nom. IN	Current, no. AND
		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

The TS-160-3 transformer is similar to the TS-150-1 transformer and is produced with two types of primary winding, this is for 127 and 220 volts (diagram in Figure 6), and only for 220 volts (there are no windings Ib and Ib "and terminals 3 and 3 "primary winding).
The external view of the TS-160-3 transformer is shown in Figure 5.

Figure 5.
External view of the TS-160-3 transformer.

Figure 6.
Transformer circuit TS-160-3.

Table 4. Winding data of TS-160 transformers.

Transformer type	Core	NN pins	Number of turns	Wire brand and diameter, mm	Voltage, nom. IN	Current, no. AND
		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 TS-160-4

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.
Exterior view of TS-160-4.

Figure 8.
Transformer circuit TS-160-4.

Table 5. Winding data of the TS-160-4 transformer.

Transformer type	Core	NN pins	Number of turns	Wire brand and diameter, mm	Voltage, nom. IN	Current, no. AND
		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

Reference data for transformers of the TS-160 series - TS-160, TSH-160, TSH-170, TSH-170-3. Photos, winding connection diagram. Voltages and currents of input-output windings, number of turns and wire diameter.

TSSH-160 transformer, similar to TSSH-170, TSSH-170-3 transformers. 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 conclusions of the primary winding are 1 - 2 and further numbering of the windings continues from number 3 (for TSSH-160, TSSH -170 from number 7), that is, if instead of TSSH-170 you put TSSH-170-3, then to the petals 3-4 TSSH-170-3, wires are soldered, suitable to the petals 7-8 TSSH-170, etc. The mains voltage of 220 volts for TSSH-160 and TSSH-170 is connected to terminals 1 and 6, while a jumper is installed between terminals 2 and 5. At the TSSH-170-3 transformer (diagram 2 in Figure 1), a voltage of 220 volts is connected to the terminals 1 and 2.

Scheme and winding data of the TS 160-4 transformer

The mains voltage of 220 volts is connected to terminals 1 and 1 ".

Schematic and winding data of the TSSH-160 transformer

Non-pressure reinforced concrete pipe ( TS 160.35-3 ) – multipurpose building material , which, due to its high strength and corrosion resistance, is used for the installation of underground pipelines, drainage systems and domestic sewerage. In road construction, this type of reinforced concrete pipes TS 160.35.3 is used to organize storm sewers, gutters. The pipe is designed for transportation of liquid and semi-liquid substances that are not aggressive to concrete, such as sewage, rainfall, industrial water, as well as waste from domestic sewage and agriculture. For this, the nominal pipe bore is assumed to be 1600 mm.

The pipe is a cylindrical bell-shaped pipe, which does not require the purchase of couplings for joining. The design feature of the pipe is the stepped butt surface of the sleeve end of the pipe. Butt joints are sealed with rubber rings. The material of manufacture is heavy concrete, which is traditionally used for the production of high strength structures.

The norms and standards for the manufacture of reinforced concrete free-flow pipes are fixed in GOST 6482-88. The gravity pipe is made of high strength concrete and reinforced with steel AI and AIII. The grade of concrete used in the production of free-flow pipes depends on the aggressiveness of the fluids to be transported. Accordingly, free-flow pipes for the transportation of chemical liquids require greater stability and strength - therefore, concrete of the highest strength class is used in their manufacture. The concrete grade for water resistance is W4.

The solid mass of the pipe - 6500 kg, determines the stability of the pipeline and installation using special cranes.

The pipe wall, 120 mm thick, can withstand pressure up to 0.05 MPa (0.5 kgf / cm2). The TS pipe practically does not corrode and decay, is resistant to aggressive media and is not prone to fouling. The non-pressure reinforced concrete pipe has a high resistance to use in a wide temperature range, including increased frost resistance.

The pipe has different classes of bearing capacity, the increase in the class affects the layer of soil that can be used to fill the non-pressure pipeline. Pipes of the first class can be laid no deeper than 2 meters, the second - no more than 4, and the third - deeper than 6 meters.

Product marking

The pipe symbol is composed of alphanumeric groups separated by a hyphen. The first group indicates the type of pipe, the diameter of its nominal bore in centimeters, and also the length in decimeters. In the second group, the Arabic numeral indicates the bearing capacity.

For example, consider a pipe ТС 160.35-3 (3690x 2172x 2172 mm), where:

• ТС - type of pipe (cylindrical socket with stepped joining;
• Digit - nominal bore diameter in cm;
• The number after the dot is the length in decimeters;
• The number is the bearing capacity class.

Product quality control

One of the important conditions for the quality of the ТС 160.35.3 pipe is the absence of reinforcement exposure. Otherwise, during operation there will be a rapid destruction of the product and violation of the tightness of the pipeline. There should be no cracks in the concrete of free-flow pipes, except for barely noticeable shrinkage pipes (no more than 0.05 mm). Possible sinks are no more than 15 mm in diameter, local concretions of no more than 5 mm, and depressions and rounds of concrete no more than 5 mm on the surface of the TS pipe and its ends.

The accuracy of the geometric parameters of the pipe may differ from the design, but no more than ± 20 mm along the length of the TS pipe, ± 6 of the pipe wall diameter, and minor deviations of no more than ± 2 mm in other parameters.

On acceptance tests are checked:

• class of concrete for compressive strength and tempering strength;
• conformity of reinforcement products;
• strength of welded joints;
• accuracy of geometric parameters;
• concrete cover to reinforcement,
• the quality of the concrete surface;
• the presence and width of possible cracks.

Party reinforced concrete free-flow pipes must accompany a document from the manufacturer (technical passport), which certifies the quality of reinforced concrete pipes. IN data sheetindicate:

• pipe batch number, symbol, total quantity in pieces and meters;
• test results of pipes of the vehicle;
• concrete grade for strength and tempering strength of concrete;
• concrete grade for frost resistance;
• concrete grade for water resistance;
• gOST designation.

Transport and storage

Reinforced concrete gravity pipes for storage on a flat area are stacked in horizontal rows. If the base is not even enough, wooden linings are pinned under the pipes, and the lower row of pipes is firmly fixed. In order to avoid mixing and confusion, free-flow reinforced concrete pipes are sorted during storage by brands and sizes.

Pipes are transported in containers (by rail); when transporting pipes without containers or by other means of transport, they must be very tightly fastened. When unloading pipes, they must be protected from impacts and dropping from any height. With correct unloading, delivery and installation, non-pressure reinforced concrete pipes will provide communications with a long service life, thanks to the technical characteristics of high-quality reinforced concrete - strength, corrosion resistance and water resistance. The service life of reinforced concrete pipes as free-flow pipelines is over 80 years. The diameter and throughput of reinforced concrete and just concrete pipelines does not change during long-term operation, because the pipes do not overgrow with microorganisms from the inside.

Single-phase low-voltage power transformers of the TSSH-160 type are used in power supply devices for black-and-white television receivers ULT-40, ULT-47-Sh and ULT-50-Sh.

TSSH-160 transformers are manufactured on armor laminated magnetic cores Ш30 * 60.

Primary winding Conclusions of the windings Voltage, V Current, A 1 - 3 127 0,6 1 - 2 - 5 - 6 220 0,35 4 - 6 127 0,6 Secondary winding Conclusions of the windings Voltage, V Current, A 7 - 8 76 0,4 9 - 10 133 0,6 11 - 12 6,8 3,2 13 - 14 6,8 0,3

Tab. 1. Electrical parameters of transformers TSH-160

TSSH-160 transformers are designed to be connected to an alternating current network with a voltage of 110, 127, 220 or 237 V with a frequency of 50 Hz. The permissible deviations of the voltage and frequency of the power supply do not exceed the values \u200b\u200bestablished by state standards, and lie within ± 5 and 0.1%, respectively.

The design of the TSSH-160 type transformer and the manufacturing technology ensure reliable operation without breaks in 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 power transformers for television receivers. 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 of the TSSH-160 type are designed for installation on the metal chassis of the TV power supply with additional fastening with four screws.

The winding data of the windings and the electrical parameters of the TSSH-160 transformers are given in table. 1 and 2. The windings of transformers on armored magnetic circuits are located on one coil.

Conclusions of the windings Number of turns Wire brand and diameter Resistance, Ohm 1 - 2 200 PEL 0.69 2,2 2 - 3 30 PEL 0.69 0,3 4 - 5 30 PEL 0.69 0,3 5 - 6 200 PEL 0.69 2,2 7 - 8 139 PEL 0.51 5 9 - 10 242 PEL 0.59 6,5 11 - 12 12,5 PEL 1.25 0,1 13 - 14 12 PEL 0.51 0,2

Tab. 2. Winding data of transformers TSSH-160

The schematic diagram of the TSSH-160 transformer is shown in Fig. one.

Fig. 1. Schematic diagram of the transformer TSSH-160.

The insulation resistance between the windings, as well as between the windings and the metal parts of the transformer under normal operating conditions is not less than 100 megohms. The insulation resistance of the transformer windings at high humidity and temperature is reduced to 10 megohms. In this case, the change in the main electrical parameters does not exceed ± 10%, measured before the impact of all external factors specified in the operating conditions.

Literature

Sidorov I.N., Skornyakov S.V. Household electronic equipment transformers: Handbook. - M: "Radio and Communication", 1999

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

This series of transformers was produced both on split, rod cores made of steel tape, grade E-320, and on armored cores made of stamped Ш-shaped plates УШ30х60. All of them were developed and intended mainly for powering black-and-white television receivers and household radio equipment.

Please note that the winding data shown here may vary. to your existing transformers, due to changes in technical specifications, manufacturing plants, 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 transformer, wind an additional winding with a known number of turns, measure the voltage on it and calculate your transformer from the data obtained.

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

Power transformer TSSH-160, interchangeable with transformers TSSH-170 and TSSH-170-3.
Power transformers TSSH-160 and TSSH-170, differ from the TSSH-170-3 transformer only in that the latter has a network winding of only 220 volts, the terminals of the network winding are numbered 1 - 2 and the further numbering of the secondary windings continues from numbers 3, that is, if instead of the TSSH-160 or TSSH-170 transformer, the TSSH-170-3 is installed, then to the 3-4 TSSH-170-3 petals, wires are soldered to the 7-8 petals of the TSSH-160 transformers and TSH-170, and so on according to the scheme.
The 220 volt network to the primary winding of the TSSH-160 and TSSH-170 transformers is connected to terminals 1 and 6, while it is necessary to close terminals 2 and 5. At the TSSH-170-3 transformer, a 220 volt network to the primary winding is connected to conclusions 1 and 2.

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, no. AND
TSSH-160 (TSH-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.

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, type TS-160, the mains voltage of 220 volts is connected to pins 1 and 1 ", while pins 2 and 2" are closed among themselves.
For transformers TS-160-2 and TS-160-4, terminals 2 and 2 "are already structurally interconnected, and the network is connected only to terminals 1 and 1"

Power transformers, TS-160, TSA-160-1, TS-160-1.

They were intended for use in power supplies of lamp, lamp-semiconductor television and radio equipment.
The 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 TCA transformer differs from the TC transformers only in that its windings are made with aluminum wire.

The primary winding of transformers can consist of only 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 is absent.
The 220 volt network in this case is connected to pins 1-1 ". Pins 3-3" are interconnected.

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, no. AND
		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	PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.47 PEL 0.47 PEL 0.51 PEL 0.51 PEL 1.35 PEL 1.35 PEL 0.41 PEL 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	PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.69 PEL 0.47 PEL 0.47 PEL 0.51 PEL 0.51 PEL 1.35 PEL 1.35 PEL 0.57 PEL 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 terminals at the TS-160 transformer correspond to the numbers of the terminals extruded on the transformer frames.
Transformers ТС-160 may have a side contact plate with its own numbering from 1 to 14. The numbering of the terminals on the contact plate will be as follows;
1-11-8 - Primary winding (220 volt network 1-8), 11 - midpoint of this primary winding (110 + 110);
2-6-3 - 33 + 33 volts (6 is the middle point of this winding);
9-4-10 - 64.5 + 64.5 volts (4 is the middle point of this winding);
5-12 - incandescence 6.3 V. 0.3A;
13-14 - filament 6.4 to 7.5A (two windings 9-10 and 9 "-10" are connected in parallel)

Power transformer, TS-160-2.

Transformer TS-160-2, designed to power semiconductor radio equipment.


The external view of the TS-160-2 transformer is shown in Figure 3, the transformer diagram is shown in Figure 4, and the winding data and electrical characteristics are in Table 3.

Figure 3.
External view of the TS-160-2 transformer.

Figure 4. Transformer circuit TS-160-2.

Table 3.Winding data of the TS-160-2 transformer.

Transformer type	Core	NN pins	Number of turns	Wire brand and diameter, mm	Voltage, nom. IN	Current, no. AND
		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

Power transformer, TS-160-3.

The power transformer, TS-160-3, is similar and interchangeable with the TS-150-1 transformer. The primary winding of the transformer can have two versions, it is for 127 and 220 volts, as in the diagram shown in Figure 6, and only for 220 volts - this is the transformer has no windings Ib and Ib "and terminals 3 and 3".
The external view 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 in Table 4.

Figure 5.
External view of the TS-160-3 transformer.

Figure 6.
Transformer circuit TS-160-3.

Table 4. Winding data of TS-160 transformers.

Transformer type	Core	NN pins	Number of turns	Wire brand and diameter, mm	Voltage, nom. IN	Current, no. AND
		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

Power transformer, TS-160-4.

A specialized transformer designed to power semiconductor equipment and equipment made on microcircuits. Used for computer power supplies.
Split transformer core, 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 shown in Table 5.

Figure 7.
Exterior view of TS-160-4.

Figure 8.
Transformer circuit TS-160-4.

Table 5.Winding data of the TS-160-4 transformer.

Transformer type	Core	NN pins	Number of turns	Wire brand and diameter, mm	Voltage, nom. IN	Current, no. AND
		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