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PIC18F2220 Datasheet, PDF (341/388 Pages) Microchip Technology – 28/40/44-Pin High-Performance, Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology
PIC18F2220/2320/4220/4320
TABLE 26-21: MASTER SSP I2C BUS DATA REQUIREMENTS
Param.
No.
Symbol
Characteristic
Min
Max Units
Conditions
100 THIGH Clock High Time 100 kHz mode 2(TOSC)(BRG + 1) — ms
400 kHz mode 2(TOSC)(BRG + 1) — ms
1 MHz mode(1) 2(TOSC)(BRG + 1) — ms
101 TLOW Clock Low Time 100 kHz mode 2(TOSC)(BRG + 1) — ms
400 kHz mode 2(TOSC)(BRG + 1) — ms
1 MHz mode(1) 2(TOSC)(BRG + 1) — ms
102 TR
SDA and SCL
Rise Time
100 kHz mode
400 kHz mode
1 MHz mode(1)
—
20 + 0.1 CB
—
1000
300
300
ns CB is specified to be from
ns 10 to 400 pF
ns
103 TF
SDA and SCL
Fall Time
100 kHz mode
400 kHz mode
1 MHz mode(1)
—
20 + 0.1 CB
—
300 ns CB is specified to be from
300 ns 10 to 400 pF
100 ns
90
TSU:STA Start Condition
100 kHz mode 2(TOSC)(BRG + 1) — ms Only relevant for
Setup Time
400 kHz mode 2(TOSC)(BRG + 1) — ms Repeated Start condition
1 MHz mode(1) 2(TOSC)(BRG + 1) — ms
91
THD:STA Start Condition
100 kHz mode 2(TOSC)(BRG + 1) — ms After this period, the first
Hold Time
400 kHz mode 2(TOSC)(BRG + 1) — ms clock pulse is generated
1 MHz mode(1) 2(TOSC)(BRG + 1) — ms
106 THD:DAT Data Input
Hold Time
100 kHz mode
400 kHz mode
1 MHz mode(1)
0
0
TBD
— ns
0.9 ms
— ns
107 TSU:DAT Data Input
Setup Time
100 kHz mode
400 kHz mode
1 MHz mode(1)
250
100
TBD
— ns (Note 2)
— ns
— ns
92
TSU:STO Stop Condition
100 kHz mode 2(TOSC)(BRG + 1) — ms
Setup Time
400 kHz mode 2(TOSC)(BRG + 1) — ms
1 MHz mode(1) 2(TOSC)(BRG + 1) — ms
109 TAA
Output Valid from 100 kHz mode
—
3500 ns
Clock
400 kHz mode
—
1000 ns
1 MHz mode(1)
—
— ns
110 TBUF Bus Free Time
100 kHz mode
400 kHz mode
1 MHz mode(1)
4.7
1.3
TBD
— ms Time the bus must be free
— ms before a new transmission
can start
— ms
D102 CB
Bus Capacitive Loading
—
400 pF
Note 1: Maximum pin capacitance = 10 pF for all I2C pins.
2: A fast mode I2C bus device can be used in a standard mode I2C bus system, but parameter #107 ≥ 250 ns,
must then be met. This will automatically be the case if the device does not stretch the LOW period of the
SCL signal. If such a device does stretch the LOW period of the SCL signal, it must output the next data bit
to the SDA line, parameter #102 + parameter #107 = 1000 + 250 = 1250 ns (for 100 kHz mode), before the
SCL line is released.
 2003 Microchip Technology Inc.
DS39599C-page 339