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TCD6001 Datasheet, PDF (3/43 Pages) Tripath Technology Inc. – 6 CHANNEL CLASS-T DIGITAL AUDIO PROCESSOR USING DIGITAL POWER PROCESSINGTM TECHNOLOGY
Electrical Characteristics
Tripath Technology, Inc. – Preliminary Technical Information
TA = 25 °C. Unless otherwise noted, the MCK frequency is 12.288 MHz. See Application/Test Circuit on
page 9.
SYMBOL
PARAMETER
VIH33
High-Level Input Voltage
CONDITIONS
VD33 = 3.3V
VIL33
Low-Level Input Voltage
VD33 = 3.3V
VOL33
Low-Level Output Voltage
VD33 = 3.0V, IOL = -50uA
VD33 = 3.0V, IOL = -4mA
VOH5
High-Level Output Voltage
VA50 = 4.5V, IOL = 50uA
VA50 = 4.5V, IOL = 4mA
VOL5
Low-Level Output Voltage
VA50 = 4.5V, IOL = -50uA
VA50 = 4.5V, IOL = -4mA
VOLSLEEPB SLEEPB Low-Level Output Voltage VA50 = 4.5V, IOL = -50uA
VA50 = 4.5V, IOL = -4mA
VOHSLEEPB SLEEPB High-Level Output Voltage VA50 = 4.5V, IOL = 50uA
VA50 = 4.5V, IOL = 4mA
FAULTIH5 FAULT High-Level Trigger Voltage VA50 = 5.0V, IFAULT = -400uA
FAULTIL5 FAULT Low-Level Trigger Voltage VA50 = 5.0V, IFAULT = 400uA
FAULTTRIS FAULT Tristate Leakage Limit
VA50 = 5.0V
I2COH
I2C Tristate Leakage (SCL, SDA) VD33 = 3.3V, VI2C = 3.3V
VOL33
Low-Level Output Voltage
VD33 = 3.0V, IOL = -50uA
VD33 = 3.0V, IOL = -4mA
IVPPSENSE VPPSENSE Threshold Currents
Over-voltage turn on (muted)
Over-voltage recover (mute off)
Under-voltage recover (mute off)
Under-voltage turn on (muted)
VVPPSENSE Threshold Voltages with
RVPP1 = RVPP2 = 576KΩ
(Note 6)
IVNNSENSE VNNSENSE Threshold Currents
Over-voltage turn on (muted)
Over-voltage recover (mute off)
Under-voltage recover (mute off)
Under-voltage turn on (muted)
Over-voltage turn on (muted)
Over-voltage recover (mute off)
Under-voltage recover (mute off)
Under-voltage turn on (muted)
VVNNSENSE Threshold Voltages with
RVNN1 = 576KΩ
RVNN2 = 1.74MΩ
(Note 6)
Over-voltage turn on (muted)
Over-voltage recover (mute off)
Under-voltage recover (mute off)
Under-voltage turn on (muted)
MIN TYP MAX UNITS
2.1
V
0.8
V
0.1
V
0.44
V
4.4
V
3.8
V
0.1
V
0.8
V
TBD
V
TBD
V
TBD
V
TBD
V
3.5
V
0.8
V
5
5
uA
TBD
TBD uA
TBD
V
TBD
V
112 125.5 µA
95 109
µA
44
50
µA
36 41.5
µA
64.5 72.3
V
54.7 62.8
V
25.3 28.8
V
20.7 23.9
V
109 123.5 µA
91 106
µA
40.5 46.5 µA
32
38
µA
62.8 71.1
V
52.4 61.1
V
23.3 26.8
V
18.4 21.9
V
Note 6: 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 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 for RVPP1 or RVNN1 off the nominal 576kΩ
value. 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.
3
TCD6001 – JL/Rev. 0.9/07.05