PIC16F54T-I/SO View Datasheet(PDF) - Microchip Technology
Part Name
Description
Manufacturer
PIC16F54T-I/SO Datasheet PDF : 88 Pages
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PIC16F5X
11.2 DC Characteristics: PIC16F5X (Extended)
DC CHARACTERISTICS
Standard Operating Conditions (unless otherwise specified)
Operating Temperature -40°C ≤ TA ≤ +125°C for extended
Param
No.
Sym.
Characteristic/Device
Min. Typ† Max. Units
Conditions
D001 VDD Supply Voltage
2.0 — 5.5 V
D002 VDR RAM Data Retention Voltage(1) — 1.5* — V Device in Sleep mode
D003 VPOR VDD Start Voltage to ensure
Power-on Reset
— VSS —
V See Section 5.1 “Power-on Reset
(POR)” for details on Power-on Reset
D004
D010
SVDD VDD Rise Rate to ensure
Power-on Reset
IDD Supply Current(2)
0.05* —
— V/ms See Section 5.1 “Power-on Reset
(POR)” for details on Power-on Reset
D020 IPD Power-down Current(2)
— 170 450 μA FOSC = 4 MHz, VDD = 2.0V, XT or RC
mode(3)
— 0.4 2.0 mA FOSC = 10 MHz, VDD = 3.0V, HS mode
— 1.7 7.0 mA FOSC = 20 MHz, VDD = 5.0V, HS mode
— 15 40 μA FOSC = 32 kHz, VDD = 2.0V, LP mode,
WDT disabled
— 1.0 15.0 μA VDD = 2.0V, WDT enabled
— 0.5 8.0 μA VDD = 2.0V, WDT disabled
* These parameters are characterized but not tested.
† Data in “Typ” column is based on characterization results at 25°C. This data is for design guidance only and
is not tested.
Note 1: This is the limit to which VDD can be lowered in Sleep mode without losing RAM data.
2: The supply current is mainly a function of the operating voltage and frequency. Other factors such as bus
loading, oscillator type, bus rate, internal code execution pattern and temperature, also have an impact on
the current consumption.
a) The test conditions for all IDD measurements in Active Operation mode are: OSC1 = external square
wave, from rail-to-rail; all I/O pins tri-stated, pulled to VSS, T0CKI = VDD, MCLR = VDD; WDT enabled/
disabled as specified.
b) For standby current measurements, the conditions are the same, except that the device is in Sleep
mode. The Power-down Current in Sleep mode does not depend on the oscillator type.
3: Does not include current through REXT. The current through the resistor can be estimated by the formula:
IR = VDD/2REXT (mA) with REXT in kΩ.
© 2007 Microchip Technology Inc.
DS41213D-page 61
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