Datasheet
PIC18F87J10 FAMILY
DS39663F-page 358 © 2009 Microchip Technology Inc.
27.3 DC Characteristics: PIC18F87J10 Family (Industrial)
DC CHARACTERISTICS
Standard Operating Conditions (unless otherwise stated)
Operating temperature -40°C ≤ T
A ≤ +85°C for industrial
Param
No.
Symbol Characteristic Min Max Units Conditions
V
IL Input Low Voltage
All I/O Ports:
D030 with TTL buffer V
SS 0.15 VDD VVDD < 3.3V
D030A — 0.8 V 3.3V ≤ VDD ≤ 3.6V
D031 with Schmitt Trigger Buffer V
SS 0.2 VDD V
D031A RC3 and RC4 VSS 0.3 VDD VI
2
C™ enabled
D031B VSS 0.8 V SMBus enabled
D032 MCLR
VSS 0.2 VDD V
D033 OSC1 V
SS 0.3 VDD V HS, HSPLL modes
D033A
D034
OSC1
T1CKI
V
SS
VSS
0.2 VDD
0.3
V
V
EC, ECPLL modes
(1)
VIH Input High Voltage
I/O Ports with non 5.5V
Tole r ance:
(4)
D040 with TTL Buffer 0.25 VDD + 0.8V VDD VVDD < 3.3V
D040A 2.0 VDD V3.3V ≤ VDD ≤ 3.6V
D041 with Schmitt Trigger Buffer 0.8 V
DD VDD V
I/O Ports with 5.5V
Tole r ance:
(4)
D041A RC3 and RC4 0.7 VDD VDD VI
2
C enabled
D041B 2.1 VDD V SMBus enabled
Dxxx with TTL Buffer 0.25 VDD + 0.8V 5.5 V VDD < 3.3V
DxxxA 2.0 5.5 V 3.3V ≤ V
DD ≤ 3.6V
Dxxx with Schmitt Trigger Buffer 0.8 VDD 5.5 V
D042 MCLR
0.8 VDD VDD V
D043 OSC1 0.7 VDD VDD V HS, HSPLL modes
D043A
D044
OSC1
T1CKI
0.8 V
DD
1.6
V
DD
VDD
V
V
EC, ECPLL modes
I
IL Input Leakage Current
(2,3)
D060 I/O Ports with non 5.5V
Tole r ance:
(4)
— ±1 μAVSS ≤ VPIN ≤ VDD,
Pin at high-impedance
D060A I/O Ports with 5.5V
Tole r ance:
(4)
— ±1 μAVss ≤ VPIN ≤ 5.5V.
Pin at high-impedance
D061 MCLR
— ±1 μAVss ≤ VPIN ≤ VDD
D063 OSC1 — ±5 μAVss ≤ VPIN ≤ VDD
Note 1: In RC oscillator configuration, the OSC1/CLKI pin is a Schmitt Trigger input. It is not recommended that the
PIC
®
device be driven with an external clock while in RC mode.
2: The leakage current on the MCLR
pin is strongly dependent on the applied voltage level. The specified
levels represent normal operating conditions. Higher leakage current may be measured at different input
voltages.
3: Negative current is defined as current sourced by the pin.
4: Refer to Table 11-2 for the pins that have corresponding tolerance limits.