The main parameters of color picture tubes from THOMSON, PHILIPS and NOKIA. Reference data

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Basic parameters of color picture tubes from THOMSON, PHILIPS and NOKIA. Reference data

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The kinescope is the most important and expensive part of a color TV. It is he who often determines the qualitative characteristics of the television image. Therefore, many domestic manufacturers of television receivers use color kinescopes of well-known world manufacturers.

The main feature of modern kinescopes is planar (in line), strictly parallel to each other, the arrangement of electron guns. On the axis of the kinescope there is a green cannon, and symmetrically on both sides of it - "red" and "blue". With this arrangement of guns, the bundle of beams is less noticeable. This is explained by the fact that between the green, to which the eye is most sensitive, and the red and blue rays, the stratification will always be smaller than between the extreme rays.

The kinescope mask is slotted. It is a plate with vertical slots. On the screen of the kinescope, phosphors of red, green and blue colors are applied in the form of alternating stripes. Each slot-like hole corresponds to a triad of vertical phosphor stripes. The use of vertical stripes of phosphors significantly reduces the influence of the Earth's magnetic field on color reproduction when the TV is moved.

Kinescopes with a plenary arrangement of electron guns, a slit mask and a dashed screen have the following advantages in comparison with kinescopes with a delta-shaped arrangement of electron guns:

the conditions for convergence of rays are simplified, since the beam of the "green" gun is directed along the axis of the kinescope and gives a raster symmetrical with respect to the axis of the screen and does not need to be converged, the "red" and "blue" rays are in the same horizontal plane with the "green", therefore their rasters need only vertical convergence;
the brightness of the screen glow increases due to the greater transparency of the mask;
color purity is improved, since inaccuracies in the manufacture of the deflecting system, leading to a shift of the rays in the vertical direction, do not lead to the departure of the rays from their phosphors;
the influence of the Earth's magnetic field on the convergence of rays and the purity of color is significantly reduced;
the principle of self-convergence of rays is implemented.

In addition, the kinescopes discussed below have the following advantages:

there are no pincushion distortions of the raster, so there is no need to perform the appropriate correction;
slit mask has temperature compensation;
there is an internal tape protection against explosion;
smoke screen and tinted phosphor improve image contrast;
there is an internal magnetic shield, no external magnetic shield is required.

General electrical parameters

Rated voltage of the heater, V	6,3
Maximum	6,9
Minimum	5,7
Maximum negative displacement of the heater with respect to the cathode, V	200
Convergence angles (approximately) at 90-degree deviation: diagonally	90^°
horizontally	78^°
vertically	60^°
Capacitance between grid 1 and all other electrodes, pF	15
Capacitance between grid 3 and all other electrodes, pF	6
Capacitance between cathodes and all other electrodes, pF	15
Capacitance between anode and outer conductive coating: maximum, pF	2300
Minimum	1500
Resistance between metal internal circuits and external conductive coating, MΩ	50
Maximum voltage on the first anode (focusing electrode), V	10000
Voltage at the cathode: nominal positive locking value, V	200
Maximum positive value	400
Nominal negative offset	0
Maximum negative value	2
Percentage of total anode current generated by each electron beam (average value): red, %	30
Blue	31
Green	39

Optical parameters

screen - filter glass;
light transmission in the center (approximately) - 85%;
surface - polished;
screen - aluminized, phosphor - red (rare earth phosphorus), blue and green (sulfide);
inertia - medium-short;
matrix-triple vertical lines;
the distance between the corresponding points on the triple lines (approximately) - 0,82 mm;
raster centering shift measured in the center of the screen: by line - ±5%, by frame - ±5%;
offset of the converged blue and red beams in the center of the raster in any direction - no more than 5 mm;
total shift of convergence of beams in the center of the raster in any direction between the green beam and converged blue and red beams - no more than 1,5 mm;
the maximum required raster correction (including the influence of the Earth's magnetic field) when using standard components, measured in the center of the screen in the horizontal direction - no more than 0,09 mm.
The working position of the kinescope is the contact of the anode of the flask at the top, the location of the electron guns is horizontal.

Deciphering the symbols of kinescopes:

the first character is a letter indicating the aspect ratio of the kinescope: A - a 4:3 format kinescope, W - a 16:9 format kinescope;
the second and third characters are two numbers indicating the diagonal size of the visible part of the raster on the kinescope screen (cm);
the rest of the symbols are the conventional designation of the parameters of the kinescope.

Table 1 shows the individual parameters of THOMSON kinescopes of 4:3 format, in table 2 - 16:9 format, in table 3 - the parameters of PHILIPS kinescopes of 4:3 format, in table 4 - 16:9 format, in Table 5 - parameters of kinescopes manufactured by NOKIA in 4:3 format.

Table 1

kinescope type			A34EFU10 X01	A34EFU33 X01	A34EFU33 X09	A34EFU33 X29	A34EFU33 X91
Diagonal size, cm			37	37	37	37	37
Angle of deflection, deg.			90	90	90	90	90
Weight, kg			5,9	5,9	5,9	5,9	5,9
Plinth diameter, mm			29,1	29,1	29,1	29,1	29,1
Overall length, mm			345,8	345,8	345,8	345,8	345,8
Max Voltage second anode, kV			27	27	27	27	27
Maximum current second anode, mA			0,75	0,75	0,75	0,75	0,75
Typical voltage second anode, kV			23	23	23	23	23
Focusing voltage (in % of 2nd anode voltage)			22 26 ...	22 26 ...	22 26 ...	22 26 ...	22 26 ..
Deflecting system parameters	Line coils	Induct- activity, mH	2,4	2,4	2,5	2,5	2,4
		Resist- resistance, Ohm	3,6	3,6	3,65	3,65	3,6
		Max. current, A	2,16	2,16	2,16	2,16	2,16
	Personnel coils	Induct- activity, mH	24,3	24,3	24,3	24,3	24,3
		Resist- resistance, Ohm	15	15	15	15	15
		Max. current, A	0,82	0,82	0,82	0,82	0,82
Base type (base)			B8-274	B10-277	B10-277	B10-277	B10-277

kinescope type			A34EFU33 X9S	A34EFU33 X295	A34EFU33 X091	A34EFU33 X092	A48EEV10 X01
Diagonal size, cm			37	37	37	37	51
Angle of deflection, deg.			90	90	90	90	90
Weight, kg			5,9	5,9	5,9	5,9	12,9
Plinth diameter, mm			29,1	29,1	29,1	29,1	29,1
Overall length, mm			345,8	345,8	345,8	345,8	436,6
Max Voltage second anode, kV			27	27	27	27	27,5
Maximum current second anode, mA			0,75	0,75	0,75	0,75	1
Typical voltage second anode, kV			23	23	23	23	25
Focusing voltage (in % of 2nd anode voltage)			22 26 ...	22 26 ...	22 26 ...	22 26 ...	29 33 ...
Deflecting system parameters	Line coils	Induct- activity, mH	2,4	2,4	2,4	2,4	1,93
		Resist- fluctuation, ohm	3,6	3,6	3,6	3,6	2,2
		Max. current, A	2,16	2,16	2,16	2,16	2,77
	Personnel coils	Induct- activity, mH	24,3	24,3	24,3	24,3	28,5
		Resist- fluctuation, ohm	15	15	15	15	14,5
		Max. current, A	0,82	0,82	0,82	0,82	0,78
Base type (base)			B10-277	B10-277	B10-277	B10-277	B8-274

kinescope type			A48EEV13 X01	A48EEV13 X02	A48EEV13 X03	A48EEV13 X25	A43EEV13 X31
Diagonal size, cm			51	51	51	51	51
Angle of deflection, deg.			90	90	90	90	90
Weight, kg			12,9	12,9	12,9	12,9	12,9
Plinth diameter, mm			29,1	29,1	29,1	29,1	29,1
Overall length, mm			432,1	432,1	432,1	432,1	432,1
Max Voltage second anode, kV			27,5	27,5	27,5	27,5	27,5
Maximum current second anode, mA			1	1	1	1	1
Typical voltage of the second anode, kV			25	25	25	25	25
Focusing voltage (in % of 2nd anode voltage)			29 33 ...	29 33 ...	29 33 ...	29 33 ...	29 33 ...
Deflecting system parameters	Line coils	Induct- activity, mH	1,93	1,93	1,93	1,93	1,3
		Resist- fluctuation, ohm	2,2	2,2	2,2	2,2	1,53
		Max. current, A	2,77	2,77	2,77	2,77	3,37
	Personnel coils	Induct- activity, mH	28,5	28,5	28,5	28,5	28,5
		Resist- fluctuation, ohm	14,5	14,5	14,5	14,5	14,5
		Max. current, A	0,78	0,78	0,78	0,78	0,78
Base type (base)			B10-277	B10-277	B10-277	B10-277	B10-277

kinescope type			A48EEV13 X091	M8EEV33 X01	A48EEV33 X02	A48EEV33 X03	A48EAX13 H01
Diagonal size, cm			51	51	51	51	51
Angle of deflection, deg.			90	90	90	90	90
Weight, kg			12,9	12,9	12,9	12,9	12,9
Plinth diameter, mm			29,1	29,1	29,1	29,1	29,1
Overall length, mm			432,1	432,1	432,1	432,1	432,1
Max Voltage second anode, kV			27,5	27,5	27,5	27,5	27,5
Maximum current second anode, mA			1	1	1	1	1
Typical voltage second anode, kV			25	25	25	25	25
Focusing voltage (in % of 2nd anode voltage)			26,6-29,8	26,6-29,8	26,6-29,8	26,6-29,8	22-26
Deflecting system parameters	Line coils	Induct- activity, mH	1,93	1,93	1,93	1,93	2,3
		Resist- resistance, Ohm	2,2	2,2	2,2	2,2	3,5
		Max. current, A	2,77	2,77	2,77	2,77	2,52
	Personnel coils	Induct- activity, mH	28,5	28,5	108	28,5	24
		Resist- resistance, Ohm	14,5	14,5	58	14,5	15
		Max. current, A	0,78	0,78	0,39	0,78	0,88
Base type (base)			B10-277	B10-277	B10-277	B10-277	B10-277

kinescope type			A48EAX13 H091	A48EAX13 H02	M8EAX13 XQ3	A48EAX13 X092	A48EAX33 H01
Diagonal size, cm			51	51	51	51	51
Angle of deflection, deg.			90	90	90	90	90
Weight, kg			12,9	12,9	12,9	12,9	12,9
Plinth diameter, mm			29,1	29,1	29,1	29,1	29,1
Overall length, mm			432,1	432,1	432,1	432,1	432,1
Max Voltage second anode, kV			27,5	27,5	27,5	27,5	27,5
Maximum current second anode, mA			1	1	1	1	1
Typical voltage second anode, kV			25	25	25	25
Focusing voltage (in % of 2nd anode voltage)			22-26	22-26	22-26	22-26	22-26
Deflecting system parameters	Line coils	Induct- activity, mH	2,3	2,3	2,3	2,3	2,3
		Resist- resistance, Ohm	3,5	3,5	3,5	3,5	3,5
		Max. current, A	2,52	2,52	2,52	2,52	2,52
	Personnel coils	Induct- activity, mH	24	24	24	24	24
		Resist- resistance, Ohm	15	15	15	15	15
		Max. current, A	0,88	0,88	0,88	0,88	0,88
Base type (base)			B10-277	B10-277	B10-277	B10-277	B10-277

kinescope type A48EA
Х33Х02 AS1EBV10
X01 A51EBV13
X01 A51EBV13
X091 A51EBV93
X01
Diagonal size, cm 51 54 54 54 54
Angle of deflection, deg. 90 90 90 90 90
Weight, kg 12,9 12,9 12,9 12,9 12,9
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 432,1 444,8 440,3 440,3 440,3
Max Voltage
second anode, kV 27,5 27,5 27,5 27,5 27,5
Maximum current
second anode, mA 1 1 1 1 1
Typical voltage
second anode, kV 25 27,5 27,5 27,5 27,5
Focusing voltage
(in % of 2nd anode voltage) 22-26 29-33 29-33 29-33 29-33
Deflecting system parameters Line coils Induct-
activity, mH 2,3 2,4 2,4 2,4 2,4
Resist-
resistance, Ohm 3,5 3,6 3,6 3,6 3,6
Max.
current, A 2,52 2,42 2,42 2,42 2,42
Personnel coils Induct-
activity, mH 24 27,4 27,4 27,4 27,4
Resist-
resistance, Ohm 15 15 15 15 15
Max.
current, A 0,88 0,89 0,89 0,89 0,89
Base type (base) B10-277 B8-274 B10-277 B10-277 B10-277

kinescope type A51EBV
93X05 A51EBV13
X21 A51EBV13
X23 A51EBV13
X25 A51EBV13
X02
Diagonal size, cm 54 54 54 54 54
Angle of deflection, deg. 90 90 90 90 90
Weight, kg 12,9 12,9 12,9 12,9 12,9
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 440,3 440,3 440,3 440,3 440,3
Max Voltage
second anode, kV 27,5 27,5 27,5 27,5 27,5
Maximum current
second anode, mA 1 1 1 1 1
Typical voltage
second anode, kV 27,5 27,5 27,5 27,5 27,5
Focusing voltage
(in % of 2nd anode voltage) 29,0-33,0 29,0-33,0 26,6-29,8 26,6-29,8 26,6-29,8
Deflecting system parameters Line coils Induct-
activity, mH 2,4 2,4 2,4 2,4 1,93
Resist-
resistance, Ohm 3,6 3,6 3,6 3,6 2,2
Max.
current, A 2,42 2,42 2,42 2,42 2,77
Personnel coils Induct-
activity, mH 27,4 27,4 27,4 27,4 28,5
Resist-
resistance, Ohm 15 15 15 15 14,5
Max.
current, A 0,89 0,89 0,89 0,89 0,78
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

kinescope type A59EAS
13X11 A59EAU
28X01 A59EAU
25X02 AS9ECY
13X01 A59ECY
13X05
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 18,5 18,5 18,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 416,9 396,1 396,1 404,5 404,5
Max Voltage
second anode, kV 29,9 29,9 29,9 29,9 29,9
Maximum current
second anode, mA 1 1 1 1 1
Typical voltage
second anode, kV 27,5 27,5 27,5 27,5 27,5
Focusing voltage
(in % of 2nd anode voltage) 29 33 .. 29 33 .. 29 33 .. 26 30 .. 26 30 ..
Deflecting system parameters Line coils Induct-
activity, mH 0,43 1,5 1,5 1,5 1,5
Resist-
resistance, Ohm 0,35 1,3 1,3 1,75 1,75
Max.
current, A - 4,82 4,82 4,82 4,82
Personnel coils Induct-
activity, mH 25,8 24,6 82 27,5 27,5
Resist-
resistance, Ohm 9,6 9,6 31,5 9,3 9,3
Max.
current, A 1,16 1,26 0,63 1,28 1,28
Base type (base) B10-277 B10-277 B8-274 B10-277 B10-277

kinescope type A59ESU
13X21 A59ECY
13X23 A59ECY
13X25 A596CY
13X611 A59ECY
13X811
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 20,5 20,5 20,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 404,5 404,5 404,5 404,5 404,5
Max Voltage
second anode, kV 29,9 29,9 29,9 29,9 29,9
Maximum current
second anode, mA 1 1 1 1 1
Typical voltage
second anode, kV 27,5 27,5 27,5 27,5 27,5
Focusing voltage
(in % of 2nd anode voltage) 26 30 ... 26 30 ... 26 30 ... 26 30 ... 26 30 ...
Deflecting system parameters Line coils Induct-
activity, mH 1,5 1,5 1,5 1,5 1,5
Resist-
resistance, Ohm 1,75 1,75 1,75 1,75 1,75
Max.
current, A 4,82 4,82 4,82 4,82 4,82
Personnel coils Induct-
activity, mH 27,5 27,5 27,5 27,5 27,5
Resist-
resistance, Ohm 9,3 9,3 9,3 9,3 9,3
Max.
current, A 1,28 1,28 1,28 1,28 1,28
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

kinescope type A59ECY
13X12 AS9ECY
13X15 A59ECY
13X17 A59ECY
13X19 A59ECY
13X215
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 20,5 20,5 20,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 404,5 404,5 404,5 404,5 404,5
Max Voltage
second anode, kV 29,9 29,9 29,9 29,9 29,9
Maximum current
second anode, mA 1 1 1 1 1
Typical voltage
second anode, kV 27,5 27,5 27,5 27,5 27,5
Focusing voltage
(in % of 2nd anode voltage) 26 30 ... 26 30 ... 26 30 ... 26 30 ... 26 30 ...
Deflecting system parameters Line coils Induct-
activity, mH 0,29 1,15 1,15 1,15 1,15
Resist-
resistance, Ohm 0,35 1,35 1,35 1,35 1,35
Max.
current, A 11,5 5,5 5,5 5,5 5,5
Personnel coils Induct-
activity, mH 8,5 27 27 27 27
Resist-
resistance, Ohm 3,8 9,1 9,1 9,1 9,1
Max.
current, A 2,5 1,28 1,28 1,28 1,28
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

kinescope type A59ECY
13X127 A59ECY
13X219 A59ECY
13X31 A59ECY
13X55 А59ESU
13X38
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 20,5 20,5 20,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 404,5 404,5 404,5 404,5 404,5
Max Voltage
second anode, kV 29,9 29,9 29,9 29,9 29,9
Maximum current
second anode, mA 1 1 1 1 1
Typical voltage
second anode, kV 27,5 27,5 27,5 27,5 27,5
Focusing voltage
(in % of 2nd anode voltage) 26 30 ... 26 30 ... 26 30 ... 26 30 ... 26 30 ...
Deflecting system parameters Line coils Induct-
activity, mH 1,15 1,15 1,85 1,85 1,5
Resist-
resistance, Ohm 1,35 1,35 2,1 2,1 1,75
Max.
current, A 5,5 5,5 4,34 4,34 4,82
Personnel coils Induct-
activity, mH 27 27 12 12 12
Resist-
resistance, Ohm 9,1 9,1 6 6 6
Max.
current, A 1,28 1,28 1,73 1,73 1,73
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

kinescope type A59ECY
13X40 A59ECY
13X240 AS9ECY
13X381 A59ECY
13X385 A59EO
N43X01
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 20,5 20,5 20,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 404,5 404,5 404,5 404,5 404,5
Max Voltage
second anode, kV 29,9 29,9 29,9 29,9 32
Maximum current
second anode, mA 1 1 1 1 1,5
Typical voltage
second anode, kV 27,5 27,5 27,5 27,5 30
Focusing voltage
(in % of 2nd anode voltage) 26 30 .. 26 30 .. 26 30 .. 26 30 .. 26 30 ..
Deflecting system parameters Line coils Induct-
activity, mH 1,5 1,5 1,5 1,5 1,5
Resist-
resistance, Ohm 1,75 1,75 1,75 1,75 1,75
Max.
current, A 4,82 4,82 4,82 4,82 5,03
Personnel coils Induct-
activity, mH 12 12 12 12 27,5
Resist-
resistance, Ohm 6 6 6 6 9,3
Max.
current, A 1,73 1,73 1,73 1,73 1,34
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

kinescope type A59ED
N53X01 A59ED
N83X01 A59ED
N93X01 A59ED
N43X10 A59ED
N83X10
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 20,5 20,5 20,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 404,5 404,5 404,5 404,5 404,5
Max Voltage
second anode, kV 32 32 32 32 32
Maximum current
second anode, mA 1,5 1,5 1,5 1,5 1,5
Typical voltage
second anode, kV 30 30 30 30 30
Focusing voltage
(in % of 2nd anode voltage) 26 30 .. 26 30 .. 26 30 .. 26 30 .. 26 30 ..
Deflecting system parameters Line coils Induct-
activity, mH 1,5 1,5 1,5 0,36 0,36
Resist-
resistance, Ohm 1,75 1,75 1,75 0,45 0,45
Max.
current, A 5,03 5,03 5,03 10,3 10,3
Personnel coils Induct-
activity, mH 27,5 27,5 27,5 7 7
Resist-
resistance, Ohm 9,3 9,3 9,3 2,4 2,4
Max.
current, A 1,34 1,34 1,34 2,59 2,59
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

kinescope type A59ED
N43X12 A59ED
N83X12 A59ED
N43X15 A59ED
N83X15 AS9ED
N83X17
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 20,5 20,5 20,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 404,5 404,5 404,5 404,5 404,5
Max Voltage
second anode, kV 32 32 32 32 32
Maximum current
second anode, mA 1,5 1,5 1,5 1,5 1,5
Typical voltage
second anode, kV 30 30 30 30 30
Focusing voltage
(in % of 2nd anode voltage) 26 30 .. 26 30 .. 26 30 .. 26 30 .. 26 30 ..
Deflecting system parameters Line coils Induct-
activity, mH 0,29 0,29 1,15 1,15 1,15
Resist-
resistance, Ohm 0,35 0,35 1,35 1,35 1,35
Max.
current, A 11,5 11,5 5,74 5,74 5,74
Personnel coils Induct-
activity, mH 8,5 8,5 27 27 27
Resist-
resistance, Ohm 3,8 3,8 9,1 9,1 9,1
Max.
current, A 2,5 2,5 1,34 1,34 1,34
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

kinescope type AS9ED
N83X19 A59ED
N83X215 A59ED
N83X217 A59ED
N83X219 A59ED
N43X31
Diagonal size, cm 63 63 63 63 63
Angle of deflection, deg. 110 110 110 110 110
Weight, kg 20,5 20,5 20,5 20,5 20,5
Plinth diameter, mm 29,1 29,1 29,1 29,1 29,1
Overall length, mm 404,5 404,5 404,5 404,5 404,5
Max Voltage
second anode, kV 32 32 32 32 32
Maximum current
second anode, mA 1,5 1,5 1,5 1,5 1,5
Typical voltage
second anode, kV 30 30 30 30 30
Focusing voltage
(in % of 2nd anode voltage) 26 .. 30 26 30 .. 26 30 .. 26 30 .. 26 30 ..
Deflecting system parameters Line coils Induct-
activity, mH 1,15 1,15 1,15 1,15 1,85
Resist-
resistance, Ohm 1,35 1,35 1,35 1,35 2,1
Max.
current, A 5,74 5,74 5,74 5,74 4,53
Personnel coils Induct-
activity, mH 27 27 27 27 12
Resist-
resistance, Ohm 9,1 9,1 9,1 9,1 6
Max.
current, A 1,34 1,34 1,34 1,34 1,81
Base type (base) B10-277 B10-277 B10-277 B10-277 B10-277

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The sounds that surround us in modern cities are becoming increasingly piercing. However, few people think about how this noise affects the animal world, especially such delicate creatures as chicks that have not yet hatched from their eggs. Recent research is shedding light on this issue, indicating serious consequences for their development and survival. Scientists have found that exposure of zebra diamondback chicks to traffic noise can cause serious disruption to their development. Experiments have shown that noise pollution can significantly delay their hatching, and those chicks that do emerge face a number of health-promoting problems. The researchers also found that the negative effects of noise pollution extend into the adult birds. Reduced chances of reproduction and decreased fertility indicate the long-term effects that traffic noise has on wildlife. The study results highlight the need ... >>

Wireless speaker Samsung Music Frame HW-LS60D 06.05.2024

In the world of modern audio technology, manufacturers strive not only for impeccable sound quality, but also for combining functionality with aesthetics. One of the latest innovative steps in this direction is the new Samsung Music Frame HW-LS60D wireless speaker system, presented at the 2024 World of Samsung event. The Samsung HW-LS60D is more than just a speaker system, it's the art of frame-style sound. The combination of a 6-speaker system with Dolby Atmos support and a stylish photo frame design makes this product the perfect addition to any interior. The new Samsung Music Frame features advanced technologies including Adaptive Audio that delivers clear dialogue at any volume level, and automatic room optimization for rich audio reproduction. With support for Spotify, Tidal Hi-Fi and Bluetooth 5.2 connections, as well as smart assistant integration, this speaker is ready to satisfy your ... >>

A New Way to Control and Manipulate Optical Signals 05.05.2024

The modern world of science and technology is developing rapidly, and every day new methods and technologies appear that open up new prospects for us in various fields. One such innovation is the development by German scientists of a new way to control optical signals, which could lead to significant progress in the field of photonics. Recent research has allowed German scientists to create a tunable waveplate inside a fused silica waveguide. This method, based on the use of a liquid crystal layer, allows one to effectively change the polarization of light passing through a waveguide. This technological breakthrough opens up new prospects for the development of compact and efficient photonic devices capable of processing large volumes of data. The electro-optical control of polarization provided by the new method could provide the basis for a new class of integrated photonic devices. This opens up great opportunities for ... >>

Random news from the Archive

Direction finder Saab Sensor Compact 16.05.2022

Saab has developed a mobile electronics module, the Sensor Compact, which is able to monitor airborne threats and still go unnoticed.

Sirius Compact is a device belonging to the class of technology for electronic warfare (EW). It allows you to create an entire passive network to monitor threats, increase situational awareness and support operations at all tactical levels.

The sensors detect electromagnetic emissions from enemy vehicles, evaluate their power and classify data transmission channels, while remaining invisible to enemy direction finders due to the absence of outgoing signals.

Specifications Sensor Compact:

Height: 30 cm
Diameter: 14 cm
Weight: about 3 kg
Power: 50 W
Frequency Range: 2-11;18GHz
Interfaces: Ethernet, 18-28 V DC
Azimuth coverage: 360°
DF accuracy: < 2° RMS
Geolocation using triangulation
Digital channel receiver
Positioning: built-in IMU/GNSS

Small size and autonomy allow you to quickly install the Sensor Compact on a tripod right on the battlefield, they can also be placed on drones, cars, ships and other vehicles. By moving the sensors or combining the data of several of them, you can establish the exact position of objects using triangulation. The system will warn in advance of approaching targets, which is especially important in the work of ground-based air defense.

Sensor Compact do not store confidential data, which eliminates information leakage if the device is lost.

"Operating in the electromagnetic spectrum of today's battlefield is an ever-changing challenge. The need to remain undetected in the deployment and use of electronic warfare was at the forefront of the development of the Sirius Compact," commented Karl-Johan Bergholm, head of Saab's surveillance division.

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