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CY7C68013A_09 Datasheet, PDF (36/62 Pages) Cypress Semiconductor – EZ-USB FX2LP USB Microcontroller High Speed USB Peripheral Controller
CY7C68013A, CY7C68014A
CY7C68015A, CY7C68016A
6. Absolute Maximum Ratings
Exceeding maximum ratings may impair the useful life of the
device. These user guidelines are not tested.
Storage Temperature ......................................–65°C to +150°C
Ambient Temperature with
Power Supplied (Commercial)...............................0°C to +70°C
Ambient Temperature with
Power Supplied (Industrial) ............................–40°C to + 105°C
Supply Voltage to Ground Potential.................... –0.5V to +4.0V
DC Input Voltage to Any Input Pin[15] ................................5.25V
DC Voltage Applied to Outputs
in High Z State .......................................... –0.5V to VCC + 0.5V
Power Dissipation..........................................................300 mW
Static Discharge Voltage................. ...............................>2000V
Max Output Current, per I/O port......................................10 mA
Max Output Current, all five I/O ports
(128- and 100-pin packages)............................................50 mA
7. Operating Conditions
TA (Ambient Temperature Under Bias)
Commercial ...........................................................0°C to +70°C
TA (Ambient Temperature Under Bias)
Industrial–40°C to +105°C
Supply Voltage................................................ +3.00V to +3.60V
Ground Voltage.......................................................................0V
FOSC (Oscillator or Crystal Frequency)............24 MHz ± 10 ppm,
Parallel Resonant
8. Thermal Characteristics
The following table displays the thermal characteristics of various packages:
Table 13. Thermal Characteristics
Package
θa
θJc
θCa
Ambient Temperature Junction to Case Case to Ambient
Temperature
Temperature
θJa
Junction to Ambient Temperature
θJc + θCa
(°C)
56 SSOP
70
100 TQFP
70
128 TQFP
70
56 QFN
70
56 VFBGA
70
(°C/W)
24.4
11.9
15.5
10.6
30.9
(°C/W)
23.3
34.0
27.7
14.6
27.7
(°C/W)
47.7
45.9
43.2
25.2
58.6
The Junction Temperature θj, can be calculated using the following equation: θj = P*θJa + θa
where,
P = Power
θJa = Junction to Ambient Temperature (θJc + θCa)
θa = Ambient Temperature (70 C)
The Case Temperature θc, can be calculated using the following equation: θc = P*θCa + θa
where,
P = Power
θCa = Case to Ambient Temperature
θa = Ambient Temperature (70 C)
Note
15. Do not power I/O with chip power off.
Document #: 38-08032 Rev. *N
Page 36 of 62
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