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Número de pieza | TDA7560 | |
Descripción | 4 x 51 W quad bridge car radio amplifier | |
Fabricantes | ST Microelectronics | |
Logotipo | ||
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No Preview Available ! TDA7560
4 x 51 W quad bridge car radio amplifier
Datasheet production data
Features
■ Superior output power capability:
– 4 x 51 W/4 max.
– 4 x 45 W/4 EIAJ
– 4 x 30 W/4 @ 14.4 V, 1 kHz, 10 %
– 4 x 80 W/2 max.
– 4 x 77 W/2 EIAJ
– 4 x 55 W/2 @ 14.4 V, 1 kHz, 10 %
■ Multipower BCD technology
■ MOSFET output power stage
■ Excellent 2 driving capability
■ Hi-Fi class distortion
■ Low output noise
■ Standby function
■ Mute function
■ Automute at min. supply voltage detection
■ Low external component count:
– Internally fixed gain (26 dB)
– No external compensation
– No bootstrap capacitors
■ On board 0.35 A high side driver
■ Protections:
– Output short circuit to GND, to VS, across
the load
– Very inductive loads
'!0'03
Flexiwatt25
(vertical)
'!0'03
Flexiwatt25
(horizontal)
– Overrating chip temperature with soft
thermal limiter
– Output DC offset detection
– Load dump voltage
– Fortuitous open GND
– Reversed battery
– ESD
Description
The TDA7560 is a breakthrough BCD (Bipolar /
CMOS / DMOS) technology class AB audio power
amplifier in Flexiwatt 25 package designed for
high power car radio.
The fully complementary P-Channel/N-Channel
output structure allows a rail to rail output voltage
swing which, combined with high output current
and minimized saturation losses sets new power
references in the car-radio field, with unparalleled
distortion performances.
Table 1.
Device summary
Order code
TDA7560
TDA7560H
Package
Flexiwatt25 (vertical)
Flexiwatt25 (horizontal)
Packing
Tube
Tube
September 2013
This is information on a product in full production.
Doc ID 6886 Rev 6
1/17
www.st.com
1
1 page TDA7560
Block and pin connection diagram
1 Block and pin connection diagram
Figure 1. Block diagram
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Doc ID 6886 Rev 6
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5/17
5 Page TDA7560
Electrical specifications
Figure 11. Distortion vs. frequency (RL = 2) Figure 12. Crosstalk vs. frequency
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Figure 13. Supply voltage rejection vs.
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Figure 14. Output attenuation vs. supply
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Figure 15. Output noise vs. source resistance Figure 16. Power dissipation and efficiency vs.
output power (sine-wave operation)
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