Class D audio amplifier for flat panel TVs features digital power limit and selectable gain
Aimed at the flat panel TV market the device can be powered from the existing 24 V backlight rail in the TV system and is capable of delivering a continuous output power of up to 20 W per-channel into an 8 Ω bridge tied load (BTL).
The Pulse Width Modulation (PWM) technique utilized within the Class-D architecture permits filter-less operation in certain circumstances by using the speakers themselves as an LC filter. This can significantly improve total bill of material costs as the additional components typically required to filter Electro-Magnetic Interference (EMI) can be omitted.
Four selectable gain ranges are supported: 20 dB, 26 dB, 32 dB, and 36 dB. An integrated digital power limiter can be set, using two external bits, to deliver a specific output (10 W, 12 W, 15 W, or 20 W). This protects the TV speakers from high amplitude input spikes. A shutdown function reduces the quiescent current drawn by the amplifier to 100 µA typical, while the mute feature ensures that audio is not present at the output during audio source switching.
In order to permit uninterruptable audio operation at lower output powers, should the internal temperature rise above the junction threshold of 150 °C, the internal gain of the device is slowly reduced. The combination of gain reduction and internal power dissipation results in a stable maximum junction temperature of approximately 140 °C. The output stage will completely shut down if the junction temperature rises above 160 °C. The power stage is re-enabled once the device junction temperature cools to below 130 °C.
If a short circuit event is detected, the output stage of the devices is completely disabled and an internal counter activated. After a 100 ms period the output stage will attempt to reactivate, with the cycle continuing until the short is removed.
The NCS8353 is housed in a compact 5 mm x 5 mm, Pb−Free, 32-pin QFN package and is priced at $0.78 per unit in 10,000 unit quantities.
Visit ON Semiconductor at www.onsemi.com.