TCD6001 Datasheet, PDF(40/43 Page) Tripath Technology Inc. – 6 CHANNEL CLASS-T DIGITAL AUDIO PROCESSOR USING DIGITAL POWER PROCESSINGTM TECHNOLOGY

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TCD6001 Datasheet, PDF (40/43 Pages) Tripath Technology Inc. – 6 CHANNEL CLASS-T DIGITAL AUDIO PROCESSOR USING DIGITAL POWER PROCESSINGTM TECHNOLOGY

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Tripath Technology, Inc. â Preliminary Technical Information

In a bridged system, stated in terms of the components described in the feedback section, the values for Ra

and Rb are determined as follows (Rd = 0.176 x Ra):

ââââ

0.952 Ã R3

R2 || 25K

0.048

âââ â

where R2||25k is the parallel combination of R2 and 25k Ohms. In a single ended (half bridge) system, the

component value relationships would be, stated in terms of the components in the feedback section:

Rb Ã ââââ

1.90 Ã R3

R1|| R2 || 25K

0.90 âââ â

where Rd = 0.176 x Ra, and R1||R2||25k is the parallel combination of R1, R2, and 25k Ohms.

When the entire system is using single ended output stages or the entire system is using bridged output

stages, the unused VCLAMP pin should be grounded.

OVER- AND UNDER-VOLTAGE PROTECTION

The TCD6001 senses the power rails through external resistor networks connected to VNNSENSE and

VPPSENSE. The over- and under-voltage limits are determined by the values of the resistors in the

networks. If the supply voltage falls outside the upper and lower limits determined by the resistor networks,

the TCD6001 shuts off the output stages of the amplifiers. The removal of the over-voltage or under-voltage

condition returns the TCD6001 to normal operation. Please note that trip points specified in the Electrical

Characteristics table are at 25Â°C and may change over temperature.

The TCD6001 has built-in over and under voltage protection for both the VPP and VNN supply rails. The

nominal operating voltage will typically be chosen as the supply âcenter point.â This allows the supply

voltage to fluctuate, both above and below, the nominal supply voltage.

VPPSENSE performs the over and undervoltage sensing for the positive supply, VPP. VNNSENSE

performs the same function for the negative rail, VNN. When the current through RVPPSENSE (or RVNNSENSE)

goes below or above the values shown in the Electrical Characteristics section (caused by changing the

power supply voltage), the power stage will be muted. VPPSENSE is internally biased at 2.5V and

VNNSENSE is biased at 1.25V.

Once the supply comes back into the supply voltage operating range (as defined by the supply sense

resistors), the power stage will automatically be unmuted and will begin to amplify. There is a hysteresis

range on both the VPPSENSE and VNNSENSE pins. If the amplifier is powered up in the hysteresis band

the power stage will be muted. Thus, the usable supply range is the difference between the over-voltage

turn-off and under-voltage turn-off for both the VPP and VNN supplies. It should be noted that there is a

timer of approximately 200mS with respect to the over and under voltage sensing circuit. Thus, the supply

voltage must be outside of the user defined supply range for greater than 200mS for the power stage to be

muted.

TCD6001 â JL/Rev. 0.9/07.05

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