CG64xxAM Preliminary Data Sheet
3. Electrical Specifications
3.1
Absolute Maximum Ratings
Table 3-2. Absolute Maximum Ratings
Symbol
Description
Min
-40
Typ
Max
+100
Units
oC
Notes
TSTG
Storage Temperature
–
–
Higher storage temperatures will reduce data
retention time.
oC
V
TA
Ambient Temperature with Power Applied
-40
+125
Vdd
VIO
Supply Voltage on Vdd Relative to Vss
DC Input Voltage
-0.5
–
–
+6.0
Vss - 0.5
Vdd + 0.5
V
VIOZ
IMIO
DC Voltage Applied to Tri-state
Vss - 0.5
-25
–
–
Vdd + 0.5
+50
V
Maximum Current into any Port Pin
mA
ESD
LU
Electro Static Discharge Voltage
Latch-up Current
2000
–
–
–
–
V
Human Body Model ESD.
200
mA
3.2
Operating Temperature
Table 3-3. Operating Temperature
Symbol
TA
Description
Min
Typ
Max
Units
Notes
oC
oC
Ambient Temperature
-40
–
–
+85
Junction Temperature at TA ≤ 85oC
TJ
-40
+100
The temperature rise from ambient to junction is
package specific. See “Thermal Impedances”
on page 23. The user must limit the power con-
sumption to comply with this requirement.
oC
Not to exceed 5000 hours at TA > 85oC.
TAPEAK
Peak Ambient Temperature
–
–
+125
3.3
DC Electrical Characteristics
3.3.1
DC Chip-Level Specifications
The following table lists guaranteed maximum and minimum specifications for the voltage and temperature ranges: 4.75V to 5.25V
and -40°C ≤ TA ≤ 85°C. Typical parameters apply to 5V at 25°C and are for design guidance only.
Table 3-4. DC Chip-Level Specifications
Symbol
Description
Min
4.75
Typ
Max
5.25
Units
Notes
Vdd
Supply Voltage
–
3
V
See DC POR and LVD specifications, Table 3-7
on page 16.
IDD
Supply Current, IMO = 24 MHz
–
8
mA
Conditions are Vdd = 5.0V, CPU = 3 MHz,
SYSCLK doubler disabled. VC1 = 1.5 MHz, VC2
= 93.75 kHz, VC3 = 0.366 kHz.
Vdd = 5.25V, -40oC ≤ TA ≤ 55oC.
ISB
Sleep (Mode) Current with POR, LVD, Sleep Timer, WDT,
and internal slow oscillator active.
–
4
5
8
µA
µA
V
Vdd = 5.25V, 55oC ≤ TA ≤ 125oC.
ISBH
VREF
Sleep (Mode) Current with POR, LVD, Sleep Timer, WDT,
and internal slow oscillator active.
–
100
1.32
Reference Voltage (Bandgap)
1.28
1.30
Trimmed for appropriate Vdd. Vdd = 4.75V to
5.25V.
May 24, 2005
Document No. 001-00353 Rev. **
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