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CY7C68013A_09 Datasheet, PDF (36/62 Pages) Cypress Semiconductor – EZ-USB FX2LP USB Microcontroller High Speed USB Peripheral Controller | |||
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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 ......................................â65°C to +150°C
Ambient Temperature with
Power Supplied (Commercial)...............................0°C to +70°C
Ambient Temperature with
Power Supplied (Industrial) ............................â40°C to + 105°C
Supply Voltage to Ground Potential.................... â0.5V to +4.0V
DC Input Voltage to Any Input Pin[15] ................................5.25V
DC Voltage Applied to Outputs
in High Z State .......................................... â0.5V 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)
Industrialâ40°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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