PIC16F616T-E/SL View Datasheet(PDF) - Microchip Technology
Part Name
Description
Manufacturer
PIC16F616T-E/SL Datasheet PDF : 214 Pages
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PIC16F610/616/16HV610/616
15.3 DC Characteristics: PIC16HV610/616-I (Industrial)
PIC16HV610/616-E (Extended)
DC CHARACTERISTICS
Standard Operating Conditions (unless otherwise stated)
Operating temperature -40°C ≤ TA ≤ +85°C for industrial
-40°C ≤ TA ≤ +125°C for extended
Param
No.
Device Characteristics
Min Typ†
Max Units
VDD
Conditions
Note
D010 Supply Current (IDD)(1, 2) —
160 230
μA
PIC16HV610/616
— 240 310 μA
2.0 FOSC = 32 kHz
3.0 LP Oscillator mode
— 280 400 μA
4.5
D011*
— 270 380 μA
— 400 560 μA
2.0 FOSC = 1 MHz
3.0 XT Oscillator mode
— 520 780 μA
4.5
D012
— 380 540 μA
— 575 810 μA
2.0 FOSC = 4 MHz
3.0 XT Oscillator mode
— 0.875 1.3 mA 4.5
D013*
— 215 310 μA
— 375 565 μA
2.0 FOSC = 1 MHz
3.0 EC Oscillator mode
— 570 870 μA
4.5
D014
— 330 475 μA
— 550 800 μA
2.0 FOSC = 4 MHz
3.0 EC Oscillator mode
— 0.85 1.2 mA 4.5
D016*
— 310 435 μA
— 500 700 μA
2.0 FOSC = 4 MHz
3.0 INTOSC mode
— 0.74 1.1 mA 4.5
D017
— 460 650 μA
— 0.75 1.1 mA
2.0 FOSC = 8 MHz
3.0 INTOSC mode
— 1.2 1.6 mA 4.5
D018
— 320 465 μA
— 510 750 μA
2.0 FOSC = 4 MHz
3.0 EXTRC mode(3)
— 0.770 1.0 mA 4.5
D019
—
2.5
3.4
mA
4.5 FOSC = 20 MHz
HS Oscillator mode
*
†
Note 1:
2:
These parameters are characterized but not tested.
Data in “Typ” column is at 4.5V, 25°C unless otherwise stated. These parameters are for design guidance
only and are not tested.
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 VDD; MCLR = VDD; WDT disabled.
The supply current is mainly a function of the operating voltage and frequency. Other factors, such as I/O
pin loading and switching rate, oscillator type, internal code execution pattern and temperature, also have
an impact on the current consumption.
3: For RC oscillator configurations, current through REXT is not included. The current through the resistor can
be extended by the formula IR = VDD/2REXT (mA) with REXT in kΩ.
DS41288F-page 148
© 2009 Microchip Technology Inc.
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