APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

Lecture

3. Tables of transition from absolute to relative units

Db	U1 / U2	P1 / P2	Db	U1 / U2	P1 / P2
0.5	1,059	1,122	21	11.22	125.9
1.0	1,122	1,259	22	12.59	158.5
1.5	1,189	1,413	23	14,13	199.5
2.0	1,259	1,585	24	15.85	251.2
2.5	1,334	1,778	25	17.78	316.2
3.0	1,413	1,995	26	19.95	398.1
3.5	1,496	2,238	27	22.39	501.2
4.0	1,585	2.512	28	25.12	631
4.5	1,679	2,818	29	28.18	794.3
5.0	1,778	3.162	thirty	31.62	1000
5.5	1,884	3.55	31	35.48	1259
6.0	1,995	3,981	32	39.81	1585
6.5	2.113	4.47	33	44.67	1995
7.0	2,239	5,012	34	50.12	2512
7.5	2.371	5.62	35	56.23	3162
8.0	2.512	6.310	36	63,10	3981
8.5	2,661	7,079	37	70.79	5012
9.0	2,818	7,943	38	79.43	6310
9.5	2,985	8,913	39	89.13	7943
ten	3.162	10.00	40	100.0	10,000
10.5	3,350	11.22	41	112.2	12589
eleven	3,548	12.59	42	125.9	15849
11.5	3,758	14,13	43	141.3	19953
12	3,981	15.85	44	158.5	25119
12.5	4,217	17.78	45	177.8	31623
13	4,467	19.95	46	199.5	39811
13.5	4,732	22.39	47	223.9	50119
14	5,012	25.12	48	251.2	63096
14.5	5,309	28.18	49	281.8	79433
15	5.623	31.62	50	316.2	100,000
15.5	5,957	35.48	51	354.8	125893
sixteen	6.310	39.81	52	398.1	158489
16.5	6,683	44.67	53	446.7	199526
17	7,079	50.12	54	501.2	251189
17.5	7,499	56.23	55	562.3	316228
18	7,943	63,10	56	631.0	398107
18.5	8,414	70.79	57	707.9	501187
nineteen	8,913	79.43	58	794.3	630957
19.5	9,441	89.13	59	891.3	794328
20	10.00	100.0	60	1000.0	100,000

Db	• U1 / U2	P1 / P2	Db	U1 / U2	P1 / P2
-0.5	0.944	0.841	-21	0.089	0,008
-one	0.891	0.794	-22	0.079	0,006
-1.5	0.841	0.708	-23	0.071	0,005
-2	0.794	0,691	-24	0.063	0,004
-2.5	0.750	0.562	-25	0.056	0,0030
-3	0.708	0.501	-26	0.050	0,0025
-3,5	0.668	0.447	-27	0.045	0,0020
-four	0.631	0.398	-28	0.040	0,0016
-4,5	0.596	0.355	-29	0.035	0,0013
-five	0.562	0.316	-thirty	0.032	0,0010
-5,5	0.531	0.282	-31	0.028	0.0008
-6	0.501	0.251	-32	0.025	0.0006
-6,5	0.473	0,224	-33	0.022	0.0005
-7	0.447	0,200	-34	0.020	0.0004
-7.5	0.421	0.178	-35	0.018	0.0003
-eight	0.398	0.158	-36	0.016	0,00025
-8,5	0.376	0.141	-37	0.014	0.0002
-9	0.355	0.126	-38	0.013.	0,00016
-9,5	0.335	0.112	-39	0.011	0,00013
-ten	0.316	0,100	-40	0,010	0.0001
-10,5	0,299	0.089	-41	0,009	0,00008
-eleven	0.282	0.079	-42	0,008	0,00006
-11,5	0.266	0.071	-43	0,007	0,00005
-12	0.251	0.063	-44	0,006	0,00004
-12,5	0.237	0.056	-45	0,006	0,00003
-13	0,224	0.050	-46	0,005	0,000025
-13,5	0.211	0.045	-47	0,0045	0,00002
-14	0,200	0.040	-48	0,004	0,000016
-14,5	0.188	0.035	-49	0,0035	0,000013
-15	0.178	0.032	-50	0,0032	0.00001
-15,5	0.168	0.028	-51	0,0028	0,000008
-sixteen	0.158	0.025	-52	0,0025	0,000006
-16,5	0.150	0.022	-53	0,0022	0,000005
-17	0.141	0.020	-54	0,002	0,000004
-17,5	0.133	0,018	-55	0,0018	0,000003
-18	0.126	0.016	-56	0,0016	0,0000025
-18,5	0.119	0.014	-57	0,0014	0,000002
-nineteen	0.112	0.013	-58	0,0013	0,0000016
-19,5	0.106	0.011	-59	0,0011	0,0000013
-20	0,100	0,010	-60	0.001	0,000001

4. Foreign and domestic transistors used in the described circuits of amplifiers and converters

Transistors may differ in pin assignment or housing type. The arrangement of the leads of transistors of the same type produced by different companies may not coincide (transistor BFR 96, manufactured by Siemens and Motorola). Therefore, it is necessary to use reference sheets of manufacturers, since in the reference books these differences are not given.

Code	Body structure	Name n / n	Brief Parameters
N3	SOT 23, Si-n	2SC1653	S, Nix, 150V, 0.05A, 150MHz
P1	SOT-23, Si-n	BFP 91A	UHF-A, 15V, 50mA, 6GHz, 0.35W
P1	SOT-23. Si-n	BFR 92	UHF-A, 20V, 25mA, 5GHz
P2	SOT-23, Si-n	BFR 92A	UHF-A, 20V, 25mA, 5GHz
P2	SOT-323, Si-n	BFQ 67	UHF-A, ha, 20V, 0.05A. 7.5GHz
R1	SOT-23, Si-n	BFR 93	UHF-A, 20V, 25mA, 5GHz
R1	SOT-143, Si-n	BFP 196	UHF-A, 12V, 0.1A, 8GHz
R2	SOT-23, Si-n	2SC2351	UHF-ra, 25V. 0.07 mA, 4.5GHz
R2	SOT-23, Si-n	BFR 93 A	UHF-A, 20V, 25mA, 5GHz
Rh	SOT-143, Si-n	BFP 183	UHF-A, 20V, 65mA, 8GHz
Rh	SOT-23. Si-n	BFR 183	UHF-A, 20V, 65mA, 8GHz
V1	SOT-23, Si-n	BFT25	UHF-A, 8V, 2.5mA, 2.3GHz, 3mW
V2	SOT-23, Si-n	BFQ 67	UHF-A, ra, 20V, 0.05A, 7.5GHz
V3	SOT-143, Si-n	BFG 67	UHF / UHF-A, 10V, 0.05A, 7.5GHz, 0.3W, 3dB, 6dB.
-	SOT-37, Si-n	BFR 91A	UHF-A, 8 V, 30 mA, 6 GHz, 0.3W, 1.6 dB, 14 dB.
-	SOT-37, Si-n	BFR 96	UHF-A, 10V, 50mA, 5GHz, 0.5 W, 3.3 dB, 16 dB.
	SOT-37, Si-n	BFR 96S	UHF-A, 10 V, 70 mA, 5 GHz, 0.7W, 4dB, 11.5dB.
415	SOT-143, Si-n	AT41511	UHF-A, 5 V, 0.9 GHz, 1.0 dB, 17.5 dB
415	SOT-23, Si-n	AT 41533	UHF-A, 5 V, 0.9 GHz, 1.0 dB, 14.5 dB
67	SOT-143, Si-n	BFP 67	UHF / UHF-A, 20V, 0.05A, 7.5GHz
-	Si-n	KT639B	S, Nix, 100V, 1.5A, 20MHz, 10 W, (63 - 160) *
4B	Si-p	KT814B	S, Nix, 60V, 1.5A, 3MHz, 10 W. (40) *
-	Si-p	KT837K	S, Nix, 70V. 8A, 1MHz, 30 W, 5 - 17dB
-	Si-p	KT837F	S, Nix, 60V, 7.5A, 1MHz. 30 W, 3 - 17 dB
-	Si-p	П214В	S, Nix, 55V, 5A, 270 Hz, 10 W, (20) *
-	Si-p	P214G	S, Nix, 60V, 7.5A, 270 Hz, 30 W, (15 ... 40) *
-	Si-n	MP37B	30V, 20 mA, 1MHz, 0.15 W, (25 ... 50) "
	Si-p	MP42	15V, 200 mA, 1MHz, 0.2 W, (20 ... 35) "
-	Si-p	GT313B	UHF-A, 15V, 30 mA, 100 MHz, 0.1 W, 8 dB, (15 ... 200) *
-	KT-1-12, Si-n	GT346A	UHF-A, 20V. 10 mA, 700 MHz. 0.05 W, 7 dB, 10.5 dB

APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

In the section of brief parameters, the following are indicated in sequence: scope, U ke (voltage between transitions), I c (collector current), Frp (limit frequency of amplification), Pk (power dissipation), F (noise figure), G (gain).

5. Comparative review of foreign antennas

RADIO ANTENNA VHF FM (UKV FM)

APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

Note: H is horizontal polarization, V is vertical.

MB TELEVISION ANTENNAS (VHF)

APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

TELEVISION ANTENNA UHF

APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

COMBINED TELEVISION ANTENNA MV / UHF (VHF / UHF)

APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

Note: Н - horizontal polarization, V— vertical.

6. Comparative table of parameters of plate amplifiers

Amplifier type	Reception channels	f. MHz	G, dB	F.dB	Rvh / ohm, Ohm
APS 03	6 - 60	174-790	12	1.2 *	300/75
APS 07	6 - 60	174-790	24	2.6 *	300/75
SWA-1	1 - 68	48,5-854	8 - 10	2.5	300/75
SWA-1 / LUX	1 - 68	48,5-854	15-18	0.9	300/75
SWA-1 / S	1 - 68	48,5-854	ten	2.3	300/75
SWA-1 / S / LUX	1 - 68	48,5-854	16 - 18	0.9	300/75
SWA-UKF-01		60 -110	23 - 28	3.1	300/75
SWA-2	1 - 68	48,5-854	23 - 28	3.2	300/75
WS-2	1 - 68	48,5-854	23 - 28	3.2	300/75
SWA-3	1 - 68	48,5-854	23 - 28	3.1	300/75
SWA-3 / LUX	1 - 68	48,5-854	25 - 30	3.0	300/75
SWA-4 / LUX	1 - 68	48,5-854	28 - 32	2.6	300/75
SWA-5	1 - 68	48,5-854	32 - 36	1.9	300/75
SWA-6	1 - 68	48,5-854	32 - 36	1.9	300/75
SWA-7	1 - 68	48,5-854	32 - 38	1.7	300/75
SWA-7 / LUX	1 - 68	48,5-854	32 - 38	1.7	300/75
SWA-7 / zw	1 - 68	48,5-854	32 - 38	1.7	300/75
SWA-8	1 - 68	48,5-854	28 - 30	2.9	300/75
SWA-8 / s	1 - 68	48,5-854	28 - 30	2.8	300/75
SWA-8 / zw	1 - 68	48,5-854	28 - 30	2.9	300/75
SWA-9	1 - 68	48,5-854	32 - 39	1.7	300/75
SWA-10	1 - 68	48,5-854	23 - 30	3.1	300/75
SWA-11	1 - 68	48,5-854	thirty	2.5	300/75
SWA-12	1 - 68	48,5-854	36	1.8	300/75
SWA-13	1 - 68	48,5-854	32	1.8	300/75
SWA-14	1 - 68	48,5-854	32	2.4	300/75
SWA-15	1 - 68	48,5-854	34	1.9	300/75
SWA-16	1 - 68	48,5-854	34	1.8	300/75
SWA-21	1 - 69	48.5-862	10 - 16	2.2	300/75
SWA-31	1 - 69	48.5-862	22 - 28	3.0	300/75
SWA-32	1 - 69	48.5-862	22 - 28	3.0	300/75
SWA-41	1 - 69	48.5-862	30 - 33	1.5	300/75
SWA-42	1 - 69	48.5-862	30 - 33	1.5	300/75
SWA-43	1 - 69	48.5-862	26 - 30	1.5	300/75
SWA-44	1 - 68	48,5-854	32	2.4	300/75
SWA-47	1 - 68	48,5-854	32 - 38	1.7	300/75
SWA-47 (AST)	1 - 69	48,5-854	30 - 35	1,3	300/75
SWA-49	1 - 68	48,5-854	32 - 39	1.7	300/75

Amplifier type	Reception channels	f, MHz	G.dB	F, dB	Rvh / ohm, Ohm
SWA-49 (AST)	1 - 69	48.5-862	34 - 40	1.2	300/75
SWA-455	1 - 69	48.5-862	22 - 30	1.8	300/75
SWA-555	1 - 68	48,5-854	34	1.9	300/75
SWA-555 (AST]	1 - 69	48.5-862	28-34	1.7	300/75
PA-2	-	40 - 800	12	3.5	300/75
A & S-110	-	40 - 800	12	3.5	300/75
PA-5	1 - 69	48.5-862	28-34	1.7	300/75
A & S-130	1 - 69	48.5-862	28-34	1.7	300/75
PA-9	1 - 69	48.5-862	28-34	1.7	300/75
A & S-140	1 -69	48.5-862	28-34	1.7	300/75
PA-10	-	40 - 800	22	3.9	300/75
A & S-120	-	40 - 800	22	3.9	300/75
Wa-031	6-60	174-790	22	3.0	300/75
Wa-032	6-60	174-790	24	2.2	300/75
Wa-041	6-60	174-790	32	1.7	300/75
Wa-042	6-60	174-790	32	1.7	300/75
Wa-501S1	6 - 60	174-790	32	1.5	300/75
Wa-501S3	6-60	174-790	34	1.6	300/75

Amplifier type	Reception channels	f.MHz	G, dB	F.dB	Pout dBmV	SWR	Rvh / ohm, Ohm
RAE-14	1 -60	48,5-790	25-30	<2.7	98	1.5	300/75
RAE-42	1-60	48,5-790	25 - 30 *	<2.5	102	1.8	300/75
RAE-43	1 -69	48.5-862	26-32	<2.5	104	1.2	300/75
RAE-45	1 -69	48.5-862	24 - 28 *	<2.2	105	1.2	300/75
RAE-65	1 -69	48.5-862	24-28	<2.5	104	1.2	300/75
PAE-65TS	1 -69	48.5-862	24-28	<1.7	112	1.6	300/75
D95	1-60	48,5-790	32	<2.5	102	1.8	300/75
2000dci	1 -69	40-800	31	3.5	-	1.8	300/75

7. The design of imported coaxial cables

Cable brand		Internal insulation	External conductor	Outer shell
1.5D-2V	ed	1.5 PE	G (Cu)	2.9 PVC
3D-2V	ed	3.0 PE	G (Cu)	5.3 PVC
50-2V	1.4 ed	PE 5.0	G (Cu)	7.3 PVC
80-2V	ed	8.0 PE	G (Cu)	11.1 PVC
10D-2V	2.9 ed	10.0 PE	G (Cu)	13.1 PVC
20D-2V	ed	20.0 PE	G (Cu)	26.0 PVC
50-2-1	0.45 md	1.5 PE	2.0 G (Cu)	2.8 PVC
50-3-1	0.9 md	2.95 PE	G (Cu)	5.0 PVC
50-7-2	2.28 md	7.25 PE	G (Cu)	10.3 PVC
50-12-1	3.58 md	11.5 PE	G (Cu)	15.0 PVC
60-7-1	1.5 md	6.6 PE	G (Cu)	8,8 PVC
60-7-2	1.5 ed	6.6 PE	G (Cu)	8,8 PVC
60-10-1	2.28 md	10.0 PE	G (Cu)	13.2 PVC
60-10-2	2.26 ed	10.0 PE	G (Cu)	13.2 PVC
75 -2 -B	0.27 md	1.5 PE	2.0 G (Cu)	2.8 PVC
75-4-1	0.6 md	3.7 PE	4.4 g (cu)	5.6 M
75-4-4	0.58 ed	3.7 PE	4.4 g (cu)	5.6 M
75 - 5 - A	1.1 ed	4.8 PE *	5.1Wd	6.9 PE
75 - 5 - B	1.1 ed	4.8 PE *	5.5 G (Cu)	6.8 PE
75 -5-C	1.1 ed	4.8 PE *	5.3 F	6.8 PE
75-7-2	1,2 md	7.25 PE	8.1 G (Cu)	10.3 PE
75-7-8	1.1 ed	7.25 PE	8.1 G (Cu)	10.3 PE
75-17-2	2.7 ed	17.3 RE	18.1 G (Cu)	22.5 PE
75 - 7 - G	1,2 ed	6.3 PE	8.3 WR	11.8 PE
75 - 7 - E	1.4 ed	7.25 PE *	7.6 V	10.3 PE
120D 10 -1	2x1.4 ed	10.6 PE *	11.6 V	14.0 PE
150-6-1	0.25 ed	5.5 PE *	6.6 V	7.6 PE
150V 1 -1	2x0.3 ed	1.0 PE *	G (Cu)	1.5x0.7 PE
240A 4 -1		4.4 PE *	G (Cu)	6.6 PE
240V 5 -2	2x0,9 md	4.8 PE *	G (Cu)	6.8 PE
ZOOA 6-1	3x0.9 md	6.4 PE *	G (Cu)	8.6 PE
A-681-123U	1.13 ed	4.8 Cellular	G (Cu) + F (Al)	6,7 PVC
Belden 9913	ed	AirPE	G (Cu)	10.3 I
CF - 56	1.0 ed	3.7 PE	5.1 Al	6.5 M
G-681-123V *	1.13 ed	4.8 CellularPE	G (Cu) + F (AI)	6,7 PVC
G-681-123V *	1.13 ed	4.8 CellularPIB	G (Cu) + F (AI)	6,7 PVC
G-681-290C	1.63 ed	7.2 CellularPE	G (Cu) + F (AI)	10.1 PE
Flex i-4 XL	ed	AirPE	G (Cu)	10.3 ON
PLE 300-8	7х0,3 md	8M	G (Cu)	1.5x10.5
PLCNE 300-5,6	7х0,3 md	5.6M	G (Cu)	5,2x9,5
RG-6U / 4	1.0 ed	4.6 PTFE	G (Cu + Sn) + F (AI	7.5 PVC
RG 6A / U	0.73md	RE	G (Cu)	8.4 PE
RG 8	ed	RE	G (Cu)	10.3 I
RG 8 Type	ed	FoamPE	G (Cu)	10.3 I
RG 8A	ed	RE	G (Cu)	10.3 IIA
RG 8X	ed	FoamPE	G (Cu)	6.5 I
RG 8M	ed	RE	G (Cu)	6.5 I
RG 11 A / U	7х0,4 md	RE	G (Cu)	10.3 PE

Cable brand	Inner conductor	Internal insulation	External conductor	Outer shell
RG 12 A / U	7х0,4 md	RE	G (Cu)	12.5 PE
RG 22 b / u	7х0,4 md	RE	G (Cu)	10.7 PE
RG 34 B / U	7x0,64	RE	G (Cu)	16.0 PE
RG 58	md	RE	G (Cu)	4.95 I
RG 58A	md	FoamPE	G (Cu)	4.95 I
RG 58 C / U	19x0.18	RE	G (Cu)	4.95 PE
RG 59	ed	RE	G (Cu)	6.5 I
RG 59 b / u	ed	RE	G (Cu)	6.15 PE
RG 59 Type	ed	FoamPE	G (Cu)	6.15 I
RG 62 A / U	0.65 ed	Hohipe	Q (Cu)	6.15 PE
RG 63 B / U	0.65ed	Hohipe	G (Cu)	10.3 PE
RG 71 B / U	0.65 ed	Hohipe	G (Cu)	6.2 PE
RG 142 b / u	0.95 ed	PTFE	G (Cu)	4.95 PE
RG 164 U	2.7 ed	RE	G (Cu)	22.1 PE
RG 174 A / U	7x0.16	RE	G (Cu)	2.5 PE
RG 178 B / U	7х0,1 md	PTFE	G (Cu)	1.85RE
RG 179 B / U	7х0,1 md	PTFE	G (Cu)	2.55 PE
RG 180 b / u	7х0,1 md	PTFE	G (Cu)	3.7PE
RG 187 A / U	7х0,1 md	PTFE	G (Cu)	2.7 PE
RG 188 A / U	7x0.17	PTFE	G (Cu)	2.7 PE
RG 195 A / U	7х0,1 md	PTFE	G (Cu)	3.8 PE
RG 196 A / U	7х0,1 md	PTFE	G (Cu)	1.9PE
RG 213 U	7x0,76	RE	G (Cu)	10.3 PE
RG 214 U	7x0,76	RE	G (Cu)	10.8 PE
RG 215 U	7x0,76	RE	G (Cu)	12.5 PE
RG 216 U	7х0,4 md	RE	G (Cu)	10.8 PE
RG 217 U	2.7ed	RE	G (Cu)	13.8 PE
RG 218 U	5.0 ed	RE	G (Cu)	22.1 PE
RG 219 U	5,0ed	RE	G (Cu)	24.3 PE
RG 220 U	6,6 ed	RE	G (Cu)	28.4 PE
RG 223 U	0.9ed	RE	G (Cu)	5.3 PE
RG 316 U	7x0.17	PTFE	G (Cu)	2.5 PE
SAS-59	0.8 ed	3,5 CellularPE	G (Cu + Sn) + F (AL)	5.7 PVC
SONIC 9590	0.9 ed	4.8 FoamPE	G (Cu) + F (AI)	6,7 PVC
SO NIK 9590	0.9 ed	4.7 FoamPE	G (Cu) + F (AI)	6.8 PVC
VLEOY 75-3,7	7x0.21 md	3.7 PE	G (Cu)	6
VCEOY 75-5,6	0.89 ed	5.6 PE	G (Cu)	eight
VCEDY 75-7,25	1,15ed	7.25 PE	Wd	eleven
VCCOY 75-5,6	1,23ed	5.6 FoamPE	G (Cu)	eight
VCCOD 75-5,6	1,23ed	5.6 FoamPE	G (Cu)	9.4
VCCZE 75-6,4	1.45ed	6.4 FoamPE	AT	9.5
VCEZE 75-6,2	1.1 ed	6.2 PE	AT	9.8
U-02-836	0.75 ed	3.2 FoamPE	G <Cu) + F (AI)	5.0 PVC
U-02-836 *	0.9 ed	3.8 FoamPE	G (Cu) + F (AI)	5.8 PVC
U-02-836 *	0.9ed	3.8 FoamPIB	G (Cu) + F (AI)	5.8 PVC
WOXpek 75
1.0 / 4.8	1.0 ed	4.8 PTFE	G (Cu + Sn) + F (AI	6,7 PVC
XWDek 75
1.0 / 4.5	1.0 ed	4.5 CellularPE	G (Cu + Sn) + F (AI	6,7 PVC
YWD 75-0,59 / 3,7	0.7 ed	3.7 PE	G (Cu)	5.9 PVC

Legend:

- internal conductor

md - stranded copper conductor;

ed - single - lead copper conductor;

- internal insulation and outer shell AirPE - air polyethylene;

M - a mixture of plastics;

FoamPE - foam polyethylene;

HohIPE - porous polyethylene;

Cellular- cellular;

CellularPE- cellular polyethylene;

RE - pure polyethylene;

PTFE - polytetrafluoroethylene;

PVC - polyvinyl chloride;

PIB - polyisobutylene;

- external conductor G (C) - copper braid;

Wd - wavy wire;

WR - longitudinal welded corrugated tube;

F (AI) - aluminum foil with shorting conductors;

F (Cu) - copper foil with closing conductors;

B - copper tape with longitudinal folding.

8. Structural design of domestic coaxial cables

Cable brand	Inner conductor	Internal insulation	External conductor	Outer shell
RK 50-0,6-21	7х0,08 MS	0.06 F-4	0.06 OMC	1.2
RK 50 -0,6-22	7х0,08 MS	0.6 F-4	0.06 OMC	1.2 F-4M
RK 50 -1-11	0.32 CMC	1.0 P	0.08 OS	1.9 P
RK 50-1-12	0.32 sms	1.0 P	0.08 AML	1.9 P
RK 50-1-21	0.34 CMC	1.0 F-4	0.08 OS	1.9 F-4M
RK 50-1-22	7x0.12 mc	1.0 F-4	0.06 OMC	1.7 F-4M
RK 50-1-23	0.32 CMC	1.0 F-4D	Tm	1.5
RK 50-1,5-11	0.47 CMC	1.5 P	0.08 OMC	2.4 P
RK 50-1,5-12	0.47 Mill	1.5 P	0.08 AML	2.4 P
RK 50-1,5-21	0.51 CMC	1.5 F-4	0.08 OS	2.4 F-4M
RK 50-1,5-22	0.47 CMC	1.5 F-4D	Tm	2
RK 50-2-11	0.68 M	2.2 P	0.12 OHM	4.0 P
RK 50-2-12	7x0.24 mc	2.2 P	0.12 OMC	3.2 P
RK 50-2-13	0.68 M	2.2 P	0.1350M	4.0 V
RK 50-2-14	7x0.12 ML	2.2 F-4	0.08 AML	2.7 P
RK 50-2-15	0.68 M	2.2 P	0.12HOME	4.4 P
RK 50-2-16	7x0.24 ML	2.2 P	0.10 AML	3.2 P
RK 50-2-21	0.73MS	2.2 F-4	0.100mc	3.5 USC
RK 50-2-22	7х0,26 MS	2.2 F-4D	0.10 OS	3.2 F-4M
RK 50-2-23	0.73 mc	2.2 F-4	0.12 DOM	4.1 USC
RK 50 -2-24	7x0.25 CMC	2.2 F-4D	0.12 OMC	3.2 F-4
RK 50-2-25	0.68 M	2.2 P	Doml	2.7
RK 50-3-11	0.9 M	3.0 P	0.12ДОМЛ	5.3 P
RK 50-3-13	0.9 M	3.0 P	0.135 OMC	5.0V
RK 50-3-21	1.01 mc	3.0 F-4	0.135TME	4.4
RK 50 -3-22	0.96 mc	3.0 F-4D	0,25 ОМС	3.5 USC
RK 50 -3-23	7x0.37 MS	3.0 F-4	0.12 OMC	4.4
RK 50-3-25	1.21 MC	3.0 F-4	0.30 msh	4.0 F-4M
RK 50-4-11	1.37M	4.6 P	0.12HOME	9.6 P
P K 50-4-13	1.37M	4.6 P	0,135 HOUSE	9.6 V
RK 50 -4-21	1.54MS	4.6 F-4	0,135 DOMS	6.6 USC
RK 50 -4-23	7х0,58 МС	4.6 F-4	0.12 OMC	6.6 F-4M
RK 50 -4-24	1.53MS	4.6 F-4	0.12 DOM	6.6 USC
RK 50-7-11	7x0,76 MP	7.3 P	0.150M	10, RFP
RK 50-7-12	7x0.76 MP	7.3 P	0.15HOME	11.2P
RK 50-7-13	7x0,76 MP	7.3 P	0.35 OMC	10.3P
RK 50-7-14	7x0.98 MC	7.3 P	0,2DOMS	11.0P
RK 50-7-15	7x0,76 MP	7.3 P	0.35 ohm	10.3V
RK 50 -7-16	7x0,76 MP	7.3 P	0.35 HOUSE	11.2 V
RK 50-7-17	7x0,76 MS	7.3 P	TA	9.3
RK 50-7-21	7x0,83 MP	7.3 F-4	0.150M	8.9 USC
RK 50 -7-22	7x0,83 MS	7.3 F-4	0.175 OMC	9.0 F-4
RK 50 -7-23	2.76MS	7.3 F-4	0.7 AGO	eleven

Cable brand	Inner conductor	Internal insulation	External conductor	Outer shell
RK 50 -7-28	7x0,83 MS	7.3 F-4	0,2DOMS	12.3F-4.RK
RK 50-9-11	7x0.9 MP	9.0 P	0.20 ohm	12.2P
RK 50-9-12	7x0.9 MP	9.0 P	0.20 ohm	12.2V
P K 50 -9-22	7x1,01 mc	9.0 F-4	0.20 OMC	12.0F-4M
P K 50 -9-23	7x1,01 MP	9.0 F-4D	0.15 OMC	14.2F-4.RK
RK 50-11-11	7x1,13 MP	11.0P	0.20 ohm	14.0 P
RK 50-11-13	7x1,13 MP	11.0P	0,25 OHM	14.0V
RK 50-11-21	7x1.19 MP	11.0 F-4	0,25 ОМС	13.0 USC
RK 50-13-15	3.6 M	13.0 P	0.5PMP	16.8 С
RK 50-13-17	7x1.3 MP	13.0 P	0.3 ohm	16.6 P
RK 50-17-17	19x1.03 MP	17.3 P	0.3 ohm	20.9 P
P K 50-24-15	6.7 M	24.0 P	0.5 PMP	28.5 С
RK 50-24-16	37x1.0 MP	24.0 P	0.5 PMP	28.5 С
RK 50-24-17	37x1.0 MP	24.0 P	0.3 ohm	27.8 P
RK 50-33-15	37x1.33 MP	33.0 P	0.6 PMP	38.0 С
RK 50-44-15	19x2.24 MP	44.0 P	0.6 PMP	49.0 С
RK 50-44-16	19x2.24 MP	44.0 P	0.45 PMP	49.0 С
RK 50-44-17	37x1.81 MP	44.0 P	0.3 ohm	48.2 P
RK 75-1-11	0.17 CMC	1.0 P	0.08 AML	1.9 P
RK 75-1-12	0.17 Mill	1.0P	0.08 AML	1.9P
RK 75-1-21	0.19 CMC	1.0 F-4	0.08 OMC	1.9 F-4M
RK 75-1-22	7x0,07 BS	1.0 F-4D	0.06 OMC	1.7 F-4M
RK 75-1,5-11	0.24 CMC	1.5 P	0.08 AML	2.4 P
RK 75-1,5-12	0.24 Mill	1.5P	0.08 AML	2.4 P
RK 75-1,5-21	0.28 CMC	1.5 F-4	0.08 OS	2.4 F-4M
RK 75-2-11	0.37 M	2.2 P	0.12 AML	3.5 P
RK 75-2-12	7x0.12 mc	2.2 P	0,1OMS	3.2 P
RK 75-2-13	0.12 ML	2.2 P	0.1 AML	3.2 P
Р К 75 -2-21	0,41 MS	2.2 F-4	0.1 OMC	3.2 USC
RK 75 -2-22	7x0.15 mc	2.2 F-4	0.1 OMC	3.2 F-4Sh
RK 75-3-13	7 x 0.20 M	3.7 SP	0.13 ohm	5.3 V
Р К 75 -3-21	0.56 mc	3.0 F-3	0.12 OHM	4.4 CSPE
RK 75 -3-22	7xO, 19MS	3.0 F-3	0.12 ohm	4.3 SSPE
RK 75 -3-31	7 x 0,23 ML	3.0 PVP	0.12 OHM	5,5 SSPE
RK 75 -3-32	7 x 0.23 mc	3.0 PVP	0.12 OHM	5.6 SSPE
RK 75 -3-33	0.71M	2.95 EIT	0.12 MG	5,0 ССПЭ
RK 75-3.7-31	0.9 M	3.7 PES	0.05 MG	5.8 SSPE
RK 75 -3.7-32	0.9 M	3.7SPE	0.05 MG	5.8 PVC
RK 75-4-11	0.72 M	4.6SPE	0.15 ohm	7.3 CSP
RK 75-4-12	7 x 0.26 MP	4.6SPE	0.15 ohm	7.3 V
RK 75-4-13	7 x 0.26 M	4.6 SP	0.12 ohm	7.6V
RK 75 -4-14	7 x 0.26 M	4.6 SP	0.12 OHM	7.3 P

Cable brand	Inner conductor	Internal insulation	External conductor	Outer ^ shell
RK 75-4-15	0.72 M	4.6 EIT	0.15 ohm	7.3V
RK 75-4-16	7 x 0.26 MP	4.6 EIT	0,25 OHM	7.3V
RK 75-4-18	0.72 mc	4.6 SP	0.15 OMC	7.3 P
RK 75 -4-21	0.85 MS	4.6F	0.11 OHM	6.0 P
RK 75 -4-22	7 x 0.30 MS	4.6 F	0.11 OHM	6.0 P
RK 75 -4-37	1.03M	4.6 PVP	0.12 OHM	6.5 P
RK 75 -4-39	7 x 0.37 MS	4.6 PVP	0.12 OHM	6.4 P
p K 75 -4-43	7 x 0.30 MS	4.6 PTF	0.11 OHM	6.0 P
RK 75-4-110	7 x 0.26 M	4.6 SP	0.150M	7.3 P
RK 75-4-113	0.72 M	4.6SPE	0.05 MG	6,4 SSPE
RK 75-7-11	1.13 M	7.3 SP	0.15 ohm	9.5 P
RK 75-7-12	7xO, 40M	7.3 SP	0.15 ohm	10.3P
RK 75-7-15	1.13M	7.3 P	0.15 ohm	9.5V
RK 75-7-16	7 x 0.4 M	7.3 P	0.20 ohm	10.3 P
RK 75-7-18	1.09M	7.3 P	-	9.3 С
RK 75 -7-21	7xO, 4M	7.3 P	0.20 ohm	10.3V
RK 75 -7-21	1.30MS	7.3 F-4	0.15 OMC	8.9 USC
RK 75 -7-22	7 x 0.46 MS	7.3 F-4	0.15 OMC	8.9 USC
RK 75 -7-37	1.62M	7.3 PVP	0.20 ohm	10.1 P
Р К 75 -7-39	1.62MS	7.3 P	TA	9.3
RK 75-7-310	1.75MS	7.3 P	0.20 OMC	10.5 P
RK 75-7-311	1.76MS	7.3 PVP	0.20 ohm	eleven
RK 75 -7-43	7 x 0.60 mc	7.3 PTF	0.15 OMC	9.7 F-4M
Р К 75 -7-44	1.77MS	7.3 F-4D	TA	9.3
KPTM 1.13-5.2	1.13M	5.2 PP	-	6,6
RK 75-9-12	1.35M	9.0 EIT	0.2 MO	12.2 SSPE
RK 75-9-13	1.35M	9.0 EIT	0.2 MO	12.2 SSPE
RK 75-9-14	1.35M	9.0 joint venture	0.20 ohm	13.2V
RK 75-9-16	1.35M	9.0 joint venture	0.20 ohm	12, ZP
R K 75-9-23	7 x 0.56 mc	9.0 F	0.15 ohm	11.4 F-4M
RK 75-9-31	2.24 mc	9.0 PVP	0.20 ohm	12.2 P
RK 75 -9-35	7 x 0.74 mc	9.0 PVP	0.20 ohm	13.0 P
Р К 75-9-41	19x0,41 MS	9.0 PTF	0.20 ohm	12.5 F-4
RK 75 -9-42	7 x 0.60 mc	9.0 PTF	0.15 ohm	10.6 F-4
PK75-9-312С	1.76M	7.22 PES	0.3 mgs	12.2 SSPE
PK75-11-11С	1.78M	11.5SPE	0.16 MG	15.4 CSPE
RK 75-17-12	2.63 M	17.3 EIT	0.3 MO	21.0 CSPE
PK75-17-13S	2.65 M	17.3 EIT	0.16 MG	22.3V
RK 100-3-11	7x0,15 ML	3.0 P	0.135 AML	-
RK 100-4-31	0.64 B	4.6 P	0.135 DOM	7.3 P
RK 100-7-11	0.6 M	7.3 P	2.15 MG	9.7 P
RK 100-7-13	0.6 M	7.3 P	2.16 MG	9.7V
RK 100-7-34	0.91 M	7.3 P	0.135 OHM	10.3 P

Cable brand	Inner conductor	Internal insulation	External conductor	Outer shell
RK 150-7-11	0.37 Mill	7.3 P	0.135 OHM	10.3 P
RK 150-7-12	0.37 CM	7.3 P	0.2 ohm	10.3 P
RK 150-7-13	0.37 MS	7.3 P	0.2 HOUSE	10.3 P
RDC 2-2.25-9	2.25 M	9.7 PVP	0.5 MO	15.0 CSPE
RDC 2 -2.25 / 9	2.25 M	9.0 P	0.5 PMP	<15P
RDC 2 -3-3.5 / 9	2.25 M	9.0 P	0.5 PMP	<15P

Legend:

- internal conductor

B - bronze conductor;

BS - silver plated bronze conductor;

M - single copper conductor;

ML - single tinned copper conductor;

MP - copper wire (stranded conductor);

MS is a single silver plated copper conductor;

C - silver conductor;

CMC - silver stale copper (bimetallic) conductor;

SML - tinned steel-copper (bimetallic) conductor;

- internal insulation and outer shell B - polyvinyl chloride plastic;

P - polyethylene;

PVP - semi-air polyethylene;

PVC - polyvinyl chloride;

PP - polypropylene;

PES - porous polyethylene;

PTF - semi-air polytetrafluoroethylene;

SPE - solid polyethylene;

SPSS - light-stabilized polyethylene;

F - fluoronol (fluoroplastic of various modifications);

- external conductor

HOUSE - double braid of copper wires;

DOMS - double braid made of silver-plated copper wire;

DOML - double braid of tinned copper wire;

MG - copper corrugated tape, overlapped with overlapping;

MGS - copper corrugated welded tape;

OM - copper wire braid;

OM G - corrugated welded copper sheath;

AML - braid of tinned copper wire;

OMC - braid of silver-plated copper wire;

OS - silver wire braid;

OAT - corrugated aluminum shell;

PMP - poviv from rectangular copper wires;

C - lead sheath;

TA - aluminum tube;

TMS - silver plated copper tube;

MLS - corrugated silver-plated copper tube;

* - in the numerator - the diameter of the wires, in the denominator - the braid density.

Approximate correspondence of some new and old types of cables.

New type	Old type	New type	Old type
RK-50-2-11	RC-119	RK-50-2- 13	RK- 19
RK - 50 - 2 - 21	RKTF - 19	RK - 50 - 3 - 11	RK- 159
RK-50-3- 13	RK-55	RK - 50 - 7 - 11	RK- 147
RK-50-7- 15	RK-47	RK - 50 - 7 - 21	RK TF - 47
RK - 75 - 3 - 11	RK-67	RK- 75-4-11	RK-101
RK-75-4 - 12	RK - 149	RK- 75-4- 15	RK- 1
RK-75-4- 16	RK -49	RK - 75 - 4 - 21	RKTF - 1
RK - 75 - 4 - 22	RKTF - 49	RK - 75 - 7 - 22	RC-120
RK-75-7- 16	RC-20	RK - 75 - 7 - 22	RK- 19
RK- 75-9- 12	RK-3	RK- 75-9- 13	RK- 103

9. Dielectric permeability, dielectric loss tangent

Name of materials	Dielectric constant, 5	The tangent of dielectric loss angle tg (S), x10 ^ 3
bakelite	four	38
cable paper:
- not impregnated	2.3	2.5 - 2.8
- oiled	2.2	3.5 - 3.8
air	one	OS
tree (birch)	2.5	40
quartz glass	3.5	0.35
transformer oil	2.1-2.3	6.5-7.6
natural rubber	2.3 - 2.5	1.0-3.0
paraffin	2.2	0.5-1.0
polyethylene	2.2 - 2.4	0.2
- foam (foamed)	1.5	0.3
- porous (cellular)	1.4	0.3-0.5
polyvinyl	2.8	8.0 - 20.0
polystyrene (block)	2.5	0.3-0.6
polypropylene	2	0.5
polyisobutylene	2.2 - 2.3	0.4 - 0.8
polyethylene terephthalate	3.0 - 4.0	2.0-4.0
polyvinyl chloride plastic
- insulating	3.9-6.1	50.0 - 90.0
- hose	6.4 - 7.5	72
plexiglass	2.7	7
film
- polyamide	6	30.0-100.0
- plasticized cellulose acetate	3.5-4.0	12.0-14.0
rubber	2.4 - 3.0	15.0-18.0
glass	5.0-10.0	0.6-15.0
sleeper	7	0.2
tefpon	2.1	0.2
barium titanate	5000	15
porcelain	five	7.0 - 8.0
fluoronol-4	1.9-2.2	0.2 - 0.3
fluoronol-3	2.5 - 3.0	10.0-25.0
ethyl cellulose	3.5	3.0-10.0

11. Conversion of relations of voltages and powers to decibels and nepers

APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

10. Recalculation of the signal level in dB / µV (dB / µV) to voltage

APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

Bibliography

1.1. GOST 7845-79. Broadcast television system. Basic parameters, measurement methods.

2.1. A.A.Shur. Near and far television reception. M .: publishing house "Radio and Communication" 1991.

2.2. A.M. Varbansky. Transmitting television stations. M .: publishing house "Svyaz", 1980.

2.3. GOST 18198-85. Television receivers. General technical conditions.

2.4. G.V. Babuk, M.G. Lokshin, I.I. Mikolaytis. Selectivity of television receivers on the mirror channel. (Telecommunication 1983.- N 7.- p. 28-33).

2.5. GOST 11216-83. Distribution networks receiving television and radio broadcasting systems. Basic parameters, technical requirements, methods of measurement and testing.

2.6. Television and sound VHF FM broadcast networks: A Handbook. / M.G.Lokshin, A.A.Shur, A.V.Kokorev ,. R.A. Krasnoschekov.- M .: Radio and communication, 1988.

3.1. GOST 11289-80. Television reception antennas. Types Main settings. General technical requirements.

3.2. B.G.Tsibaev, B.S.Romanov. Antenna amplifiers. M .: Soviet Radio, 1980.

3.3. G. I. Bornichuk, V.I. Bulych Amateur radio about television antennas. M .: DOSAAF, 1997.

6.1. Benkovsky 3., Lipinsky E. Amateur antennas of short and ultrashort waves. M .: Publishing house "Radio and communication", 1983.

6.2. L.M. Kapchinsky. Design and manufacture of television antennas. M .: Publishing house "Radio and communication", 1995.

6.3. Kari Rothammel. DDR, Berlin, 1984.

6.4. L.S. Esyutin. Elements of transmission lines of high-frequency energy and antenna. M .: Publishing House of Moscow University, 1969

6.5. N.A. Reushkin. Collective television reception systems. M .: Radio and Communication, 1992.

6.6. S.Ye. Zagik, A.M. Kapchinsky TV receiving antennas. Gosenergoizdat, 1960

7.1 GOST 19463-74. TV broadcast image transmissions. The main channels of the image radio-relay and cable communication lines. Main settings. Measurement methods.

GOST 24330-80. Television color image receivers. Main settings. GOST 24331-80. Television color image receivers. Measurement methods. GOST 21879-76. Television broadcasting.

7.2. Recomendation and Reports of the CCIR, 1986. XVI Plenary Assembly, Dubrovnik, 1986.-

Vol. XI, XII:

MKKP. Report 624-3. Characteristics of television systems.

CCIR. Recommendation 568. A single value of the signal-to-noise ratio for all

television systems.

CCIR. Recommendation 500-3. Methods of subjective quality assessment

television images.

CCIR. Recommendation 567-1. Characteristics of television communication channels,

intended for international broadcasts. 7.3 Catalogs of firms DIPOL, TERRA, Pomax, AST, Sphore Wimat, Wiedyska, SOWAR, NASA

Elektronik, Telegamax.

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APPENDIX nomograms, transfer of absolute to relative measurement units, Foreign and domestic transistors

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Television and antennas. Theory. Broadcast and cable. Digital and analog

Terms: Television and antennas. Theory. Broadcast and cable. Digital and analog