tk2150.pdf

Tripath Technology, Inc. - Technical Information

TK2150

STEREO 200W (6 Ω ) CLASS-T DIGITAL AUDIO AMPLIFIER DRIVER

USING DIGITAL POWER PROCESSING TM TECHNOLOGY

Technical Information - Preliminary Revision 1.0 – December 2002

GENERAL DESCRIPTION

The TK2150 (TC2001/TP2150 chipset) is a two-channel, 200W (6 Ω ) per channel Amplifier

Driver that uses Tripath’s proprietary Digital Power Processing (DPP TM ) technology.

Class-T amplifiers offer both the audio fidelity of Class-AB and the power efficiency of

Class-D amplifiers.

Applications

Powered DVD Players

Audio/Video Amplifiers & Receivers

Automobile Power Amplifiers

Subwoofer Amplifiers

Pro-audio Amplifiers

Features

Class-T architecture

Pin compatible with Tripath TK2350 Chipset

Proprietary Digital Power Processing technology

“Audiophile” Sound Quality

0.012% THD+N @ 60W, 8 Ω

0.02% IHF-IM @ 30W, 8 Ω

High Efficiency

93% @ 120W @ 8 Ω

91% @ 150W @ 6 Ω

Supports wide range of output power levels

Up to 200W/channel (6 Ω ), single-ended outputs,

@+/- 45V

Up to 400W (8 Ω ), bridged outputs, @+/- 30V

Output over-current protection

Over- and under-voltage protection

Over-temperature protection

Benefits

Reduced system cost with smaller/less

expensive power supply and heat sink

Signal fidelity equal to high quality

Class-AB amplifiers

High dynamic range compatible with

digital media such as CD and DVD

Typical Performance for TK2150

THD+N versus Output Power versus Supply Voltage

R L = 6 Ω

Vs = +35V, +40V, +45V

f = 1k Hz

BBM = 40nS

BW = 22hZ - 20kHz(AES17)

NOTE: +45V test uses R FBC =11k Ω

(see Application/ Test Circuit)

0.5

0.2

0.1

0.05

0.02

0.01

0.005

0.002

0.001

100

200

1 TK2150 – Rev. 1.0/12.02

Tripath Technology, Inc. - Technical Information

Absolute Maximum Ratings TC2001 (Note 1)

SYMBOL

PARAMETER

Value

UNITS

V 5

5V Power Supply

Vlogic

Input Logic Level

V 5 +0.3V

Operating Free-air Temperature Range

-40° to +85°

°C

T STORE

Storage Temperature Range

-55° to 150°

°C

T JMAX

Maximum Junction Temperature

150°

°C

ESD HB

ESD Susceptibility – Human Body Model (Note 2)

All pins

2000

Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.

See the table below for Operating Conditions.

Note 2: Human body model, 100pF discharged through a 1.5K Ω resistor.

Absolute Maximum Ratings TP2150 (Note 3)

SYMBOL

PARAMETER

Value

UNITS

VPP, VNN Supply Voltage

+/- 65

VN10

Voltage for FET drive

VNN+13

T STORE

Storage Temperature Range

-55º to 150º

°C

T A

Operating Free-air Temperature Range (Note 4)

-40º to 85º

°C

T J

Junction Temperature

150º

°C

ESD HB

ESD Susceptibility – Human Body Model (Note 5)

All pins

2000

ESD MM

ESD Susceptibility – Machine Model (Note 6)

All pins

TBD

Note 3: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.

See the table below for Operating Conditions.

Note 4: This is a target specification. Characterization is still needed to validate this temperature range.

Note 5: Human body model, 100pF discharged through a 1.5K Ω resistor.

Note 6: Machine model, 220pF – 240pF discharged through all pins.

Operating Conditions TC2001 (Note 7)

SYMBOL

PARAMETER

MIN. TYP. MAX. UNITS

V 5

Supply Voltage

4.5

5.5

V HI

Logic Input High

V5-1.0

V LO

Logic Input Low

T A

Operating Temperature Range

-40 °

25 °

85 °

°C

Note 7: Recommended Operating Conditions indicate conditions for which the device is functional.

See Electrical Characteristics for guaranteed specific performance limits.

Operating Conditions TP2150 (Note 8)

SYMBOL

PARAMETER

MIN. TYP. MAX. UNITS

VPP, VNN Supply Voltage

+/- 15 +/-30 +/- 60

VN10

Voltage for FET drive (Volts above VNN)

Note 8: Recommended Operating Conditions indicate conditions for which the device is functional.

See Electrical Characteristics for guaranteed specific performance limits.

2 TK2150 – Rev. 1.0/12.02

Tripath Technology, Inc. - Technical Information

Operating Characteristics TC2001 (Note 9)

SYMBOL

PARAMETER

MIN. TYP. MAX. UNITS

Supply Current

V IN

Input Sensitivity

1.5

V OUTHI

High Output Voltage

V 5 -0.5

V OUTLO

Low Output Voltage

100

Input DC Bias

2.4

Note 9: Recommended Operating Conditions indicate conditions for which the device is functional.

See Electrical Characteristics for guaranteed specific performance limits.

Thermal Characteristics TC2001

SYMBOL

PARAMETER

Value

UNITS

θ JA

Junction-to-ambient Thermal Resistance (still air)

80 °

C/W

Thermal Characteristics TP2150

SYMBOL

PARAMETER

Value

UNITS

θ JC

Junction-to-case Thermal Resistance

TBD °

C/W

Electrical Characteristics TC2001 (Note 10)

T A = 25 ° C. See Application/Test Circuit on page 7. Unless otherwise noted, the supply voltage is

VPP=|VNN|=45V.

SYMBOL

PARAMETER

CONDITIONS

MIN. TYP. MAX. UNITS

I q

Quiescent Current

(Mute = 0V)

V5 = 5V

I MUTE

Mute Supply Current

(Mute = 5V)

V5 = 5V

V IH

High-level input voltage (MUTE)

3.5

V IL

Low-level input voltage (MUTE)

1.0

V OH

High-level output voltage (HMUTE) I OH = 3mA

4.0

V OL

Low-level output voltage (HMUTE) I OL = 3mA

0.5

V TOC

Over Current Sense Voltage

Threshold

TBD

1.0

TBD

I VPPSENSE VPPSENSE Threshold Currents

Over-voltage turn on (muted)

Over-voltage turn off (mute off)

Under-voltage turn off (mute off)

Under-voltage turn on (muted)

138

162

154

178

µ A

V VPPSENSE Threshold Voltages with

R VPP1 = R VPP1 = 357K Ω

(Note 11, Note 12)

Over-voltage turn on (muted)

Over-voltage turn off (mute off)

Under-voltage turn off (mute off)

Under-voltage turn on (muted)

49.3

22.1

57.8

55.0

28.2

25.7

63.5

31.1

I VNNSENSE VNNSENSE Threshold Currents

Over-voltage turn on (muted)

Over-voltage turn off (mute off)

Under-voltage turn off (mute off)

Under-voltage turn on (muted)

152

174

169

191

µ A

V VNNSENSE Threshold Voltages with

R VNN1 = 324K Ω

R VNN2 = 976K Ω

(Note 11, Note 12)

Over-voltage turn on (muted)

Over-voltage turn off (mute off)

Under-voltage turn off (mute off)

Under-voltage turn on (muted)

-49.2

-21.1

-56.4

-54.8

-27.9

-24.9

-61.9

-30.8

Note 10: Minimum and maximum limits are guaranteed but may not be 100% tested.

3 TK2150 – Rev. 1.0/12.02

Tripath Technology, Inc. - Technical Information

Note 11: These supply voltages are calculated using the IVPPSENSE and IVNNSENSE values shown in the

Electrical Characteristics table. The typical voltage values shown are calculated using a RVPP and RVNN

values without any tolerance variation. The minimum and maximum voltage limits shown include either a

+1% or –1% (+1% for Over-voltage turn on and Under-voltage turn off, -1% for Over-voltage turn off and

Under-voltage turn on) variation of RVPP or RVNN off the nominal 357kohm, 324kohm, and 976kohm

values. These voltage specifications are examples to show both typical and worst case voltage ranges for

the given RVPP and RVNN resistor values. Please refer to the Application Information section for a more

detailed description of how to calculate the over and under voltage trip voltages for a given resistor value.

Note 12: The fact that the over-voltage turn on specifications exceed the absolute maximum of +/-60V for the TK2150

does not imply that the part will work at these elevated supply voltages. It also does not imply that the

TK2150 is tested or guaranteed at these supply voltages. The supply voltages are simply a calculation

based on the process spread of the IVPPSENSE and IVNNSENSE currents (see note 7). The supply

voltage must be maintained below the absolute maximum of +/-60V or permanent damage to the TK2150

may occur.

Electrical Characteristics TP2150 (Note 13)

T A = 25 ° C. See Application/Test Circuit on page 7. Unless otherwise noted, the supply voltage is

VPP=|VNN|=45V.

SYMBOL

PARAMETER

CONDITIONS

MIN. TYP. MAX. UNITS

I q

Quiescent Current

(No load, BBM0=1,BBM1=0,

Mute = 0V)

VPP = +45V

VNN = -45V (Note 14)

I MUTE

Mute Supply Current

(No load, Mute = 5V)

VPP = +45V

VNN = -45V

Note 13: Minimum and maximum limits are guaranteed but may not be 100% tested.

Note 14: The difference in the VPP and VNN current draw is due to the VN10 regulator sourcing current to the

VNN supply.

Performance Characteristics TK2150 – Single Ended

T A = 25 ° C. Unless otherwise noted, the supply voltage is VPP=|VNN|=45V, the input frequency is 1kHz

and the measurement bandwidth is 20kHz. See Application/Test Circuit.

SYMBOL

PARAMETER

CONDITIONS

MIN. TYP. MAX. UNITS

P OUT

Output Power

(continuous RMS/Channel)

THD+N = 0.1%, R L = 8 Ω

R L = 6 Ω

THD+N = 1%, R L = 8 Ω

100

135

120

155

R L = 6 Ω

THD + N Total Harmonic Distortion Plus

Noise

P OUT = 70W/Channel, R L = 8 Ω

0.012

IHF-IM

IHF Intermodulation Distortion

19kHz, 20kHz, 1:1 (IHF), R L = 8 Ω

P OUT = 30W/Channel

0.02

SNR

Signal-to-Noise Ratio

A Weighted, R L = 6 Ω ,

P OUT = 155W/Channel

104.5

Channel Separation

0dBr = 30W, R L = 8 Ω , f = 1kHz

Power Efficiency

P OUT = 150W/Channel, R L = 8 Ω

A V

Amplifier Gain

P OUT = 10W/Channel, R L = 6 Ω

See Application / Test Circuit

13.3

V/V

A VERROR Channel to Channel Gain Error

P OUT = 10W/Channel, R L = 6 Ω

See Application / Test Circuit

0.5

e NOUT

Output Noise Voltage

A Weighted, no signal, input shorted,

DC offset nulled to zero, R FBC = 11k Ω

180

µ V

V OFFSET

Output Offset Voltage

No Load, Mute = Logic Low

0.1% R FBA , R FBB , R FBC resistors

-1.0

1.0

4 TK2150 – Rev. 1.0/12.02

Tripath Technology, Inc. - Technical Information

TK2150 Block Diagram

Input Left

TC2001

Audio

Signal

Processor

Filter

Output Left

TP2150

MOSFET

Driver

Output

MOSFETs

Input Right

Filter

Output Right

5 TK2150 – Rev. 1.0/12.02

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