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TK2050 Datasheet, PDF (11/19 Pages) Tripath Technology Inc. – STEREO 50W (8OHM) CLASS-T DIGITAL AUDIO AMPLIFIER
Tripath Technology, Inc. - Technical Information
APPLICATION INFORMATION
TK2050 Basic Amplifier Operation
The TC2000 is a 5V CMOS signal processor that amplifies the audio input signal and converts the
audio signal to a switching pattern. This switching pattern is spread spectrum with a typical idle
switching frequency of about 700kHz. The switching patterns for the two channels are not
synchronized and the idle switching frequencies should differ by at least 40kHz to avoid increasing
the audio band noise floor. The idle frequency difference can be accomplished by offsetting the value
of CFB for each channel. Typical values of CFB are 470pF for channel 1 and 390pF for channel 2.
The TP2050 is a MOSFET output stage that level-shifts the signal processor’s 5V switching patterns
to the power supply voltages and drives the power MOSFETs. The power MOSFETs are N-channel
devices configured in full-bridges and are used to supply power to the output load. The outputs of the
power MOSFETs must be low pass filtered to remove the high frequency switching pattern. A
residual voltage from the switching pattern will remain on the speaker outputs when the
recommended output LC filter is used, but this signal is outside of the audio band and will not affect
audio performance.
Circuit Board Layout
The TK2050 is a power (high current) amplifier that operates at relatively high switching frequencies.
The output of the amplifier switches between VPP and VNN at high speeds while driving large
currents. This high-frequency digital signal is passed through an LC low-pass filter to recover the
amplified audio signal. Since the amplifier must drive the inductive LC output filter and speaker loads,
the amplifier outputs can be pulled above the supply voltage and below ground by the energy in the
output inductance. To avoid subjecting the TK2050 to potentially damaging voltage stress, it is critical
to have a good printed circuit board layout. It is recommended that Tripath’s layout and application
circuit be used for all applications and only be deviated from after careful analysis of the effects of any
changes.
The following components are important to place near their associated TC2000/TP2050 pins and are
ranked in order of layout importance, either for proper device operation or performance
considerations.
- The capacitors CHBR provide high frequency bypassing of the amplifier power supplies and
will serve to reduce spikes across the supply rails. CHBR should be kept within 1/8” (3mm)
of the VCC pins. Please note that the four VCC pins must be decoupled separately. In
addition, the voltage rating for CHBR should be 50V as this capacitor is exposed to the full
supply range. Similarly, capacitor CS (one place) should be located as close as possible to
the VCC pins on TP2050.
- CFB removes very high frequency components from the amplifier feedback signals and
lowers the output switching frequency by delaying the feedback signals. In addition, the
value of CFB is different for channel 1 and channel 2 to keep the average switching
frequency difference greater than 40kHz. This minimizes in-band audio noise.
- To minimize noise pickup and minimize THD+N, RFBC should be located as close to the
TC2000 as possible. Make sure that the routing of the high voltage feedback lines is kept
far away from the input op amps or significant noise coupling may occur. It is best to shield
the high voltage feedback lines by using a ground plane around these traces as well as the
input section.
In general, to enable placement as close to the TC2000/TP2050, and minimize PCB parasitics, the
capacitors listed above should be surface mount types.
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TK2050 – SB/1.0/8-02