DVB-T
Breakpoints | Non Critical ≤ 5 W | Non Critical ≤ 10 W | Non Critical | Critical |
C.F ±4.2 MHz, Mask / Filter | -33 dBc / 0 dB | -36 dBc / 0 dB | -40 dBc / 4 dB | -50 dBc / 14 dB |
C.F ±6 MHz, Mask / Filter | -45 dBc / 9 dB | -48 dBc / 12 dB | -52 dBc / 16 dB | -62 dBc / 26 dB |
C.F ±12 MHz, Mask / Filter | -70 dBc / 34 dB | -73 dBc / 37 dB | -77 dBc / 41 dB | -87 dBc / 51 dB |
Tunings | ||||
4-Pole | T-4P.06 (T2), T-4P.01 (T) | |||
5-Pole | T-5P.06 (T2), T-5P.01 (T) | |||
4-Pole A.N.T. | T-4A.05 (T2), T-4A.01 (T) | |||
6-Pole XLine | T-6X.07 (T2), T-6X.01 (T) | |||
7-Pole XLine | T-7X.06 (T2), T-7X.01 (T) | |||
6-Pole DualCross | T-6D.13 (T2), T-6D.01 (T) | |||
8-Pole DualCross | T-8D.06 (T2), T-8D.01 (T) |
Notes
- The system analysis has been carried out with a reference out-of-band noise of -36 dBc
- Adjacent Channel Combination can be implemented independently of the required Mask (e.g.: Critical), therefore it does not necessary require 8-Pole Filters
ATSC
Breakpoints | Simple | Stringent | Full Service | Increased Attenuation | UHD Korean |
C.F ±3.5 MHz, Mask / Filt. | -35 dBc / 0 dB | -36 dBc / 0 dB | -36 dBc / 0 dB | – / 15 dB | -51.4 dBC / 15.4 dB (1) |
C.F ±6 MHz, Mask / Filt. | -42 dBc / 6 dB | -65 dBc / 29 dB | -65 dBc / 29 dB | – / 45 dB | -94.4 dBC / 58.4 dB (2) |
C.F ±9 MHz, Mask / Filt. | -60 dBc / 24 dB | -65 dBc / 29 dB | -99 dBc / 63 dB | – / 63 dB | -94.4 dBC / 58.4 dB (3) |
Tunings | |||||
4-Pole | T-4P.04 (3.0/1.0) | ||||
5-Pole | T-5P.04 (3.0/1.0) | T-5P.04* (3.0/1.0) | |||
6-Pole | T-6E.04 (3.0/1.0) | T-6E.04* (3.0/1.0) | |||
4-Pole A.N.T. | T-4A.04 (3.0/1.0) | T-4A.04* (3.0/1.0) | |||
6-Pole XLine | T-6X.04 (3.0/1.0) | T-6X.04* (3.0/1.0) | |||
7-Pole XLine | T-7X.04 (3.0/1.0) | ||||
6-Pole DualCross | T-6D.16 (3.0), T-6D.05 (1.0) | ||||
8-Pole DualCross | T-8D.05 (3.0/1.0) | T-8D.10 (3.0) |
Notes
- The system analysis has been carried out with a reference out-of-band noise of -36 dBc. Tunings marked with * can be achieved with a better out-of-band noise level
- Adjacent Channel Combination can be implemented independently of the required Mask (e.g.: Critical), therefore it does not necessary require 8-Pole Filters
- (1) C.F ±3.2 MHz; (2) C.F ±8 MHz; (3) C.F ±15 MHz
ISDB-T
Breakpoints | Non Critical | Sub Critical | Critical |
C.F ±3.15 MHz, Mask / Filter | -36 dBc / 0 dB | -43 dBc / 7 dB | -50 dBc / 14 dB |
C.F ±4.5 MHz, Mask / Filter | -53 dBc / 17 dB | -60 dBc / 24 dB | -67 dBc / 31 dB |
C.F ±9 MHz, Mask / Filter | -83 dBc / 47 dB | -90 dBc / 54 dB | -97 dBc / 61 dB |
Tunings | |||
4-Pole A.N.T. | T-4A.?? | ||
5-Pole | T-5P.05* | ||
6-Pole XLine | T-6X.05* | ||
7-Pole XLine | T-7X.05 | T-7X.05* | |
6-Pole DualCross | T-6D.14 | T-6D.14* | |
8-Pole DualCross | T-8D.04 |
Notes
- The system analysis has been carried out with a reference out-of-band noise of -36 dBc. Tunings marked with * can be achieved with a better out-of-band noise level
- Adjacent Channel Combination can be implemented independently of the required Mask (e.g.: Critical), therefore it does not necessary require 8-Pole Filters
DAB
Breakpoints | Case 1 (Critical) | Case 2 (Uncritical) | Case 3 | Case 4 |
C.F ±0.97 MHz, Mask / Filter | -45 dBc / 10 dB | -30 dBc / 0 dB | -45 dBc / 10 dB | -52 dBc / 17 dB |
C.F ±1.75 MHz, Mask / Filter | -80 dBc / 45 dB | -50 dBc / 15 dB | -80 dBc / 45 dB | -83 dBc / 48 dB |
C.F ±2.22 MHz, Mask / Filter | -80 dBc / 45 dB | -61 dBc / 26 dB | -100 dBc / 65 dB | -100 dBc / 65 dB |
C.F ±3 MHz, Mask / Filter | -80 dBc / 45 dB | -80 dBc / 45 dB | -100 dBc / 65 dB | -100 dBc / 65 dB |
Tunings | ||||
7-Pole (DAB) | T-7R.02 | T-7R.01 | ||
6-Pole DualCross (DAB) | T-6R.01 | T-6R.03 | ||
8-Pole DualCross (DAB) | T-8R.01 | T-8R.03 |
Notes
- The system analysis has been carried out with reference to an out-of-band noise of -35 dBc
- Values refer to power levels ≤ 1 kW. For power levels > 1 kW, filter requirements must be increased according to the increased dB ratio (E.g. 2 kW: increase filter requirements by 3 dB)
- Adjacent Block Combination can be implemented independently of the required Mask (e.g.: Critical), therefore it does not necessary require 8-Pole Filters