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参数资料
型号: MPC8545EVUAQGA
厂商: FREESCALE SEMICONDUCTOR INC
元件分类: 微控制器/微处理器
英文描述: 32-BIT, 1000 MHz, MICROPROCESSOR, CBGA783
封装: 29 X 29 MM, 1 MM PITCH, FLIP CHIP, LEAD FREE, CERAMIC, BGA-783
文件页数: 94/142页
文件大小: 1504K
代理商: MPC8545EVUAQGA
MPC8548E PowerQUICC III Integrated Processor Hardware Specifications, Rev. 5
Freescale Semiconductor
55
I
2C
13.2
I2C AC Electrical Specifications
Table 46 provides the AC timing parameters for the I2C interfaces.
Table 46. I2C AC Electrical Specifications
Parameter
Symbol1
Min
Max
Unit
Notes
SCL clock frequency
fI2C
0400
kHz
Low period of the SCL clock
tI2CL
1.3
μs4
High period of the SCL clock
tI2CH
0.6
μs4
Setup time for a repeated START condition
tI2SVKH
0.6
μs4
Hold time (repeated) START condition (after this period,
the first clock pulse is generated)
tI2SXKL
0.6
μs4
Data setup time
tI2DVKH
100
ns
4
Data input hold time:
CBUS compatible masters
I2C bus devices
tI2DXKL
0
μs2
Data output delay time:
tI2OVKL
—0.9
3
Set-up time for STOP condition
tI2PVKH
0.6
μs—
Bus free time between a STOP and START condition
tI2KHDX
1.3
μs—
Noise margin at the LOW level for each connected device
(including hysteresis)
VNL
0.1
× OVDD
—V
Noise margin at the HIGH level for each connected
device (including hysteresis)
VNH
0.2
× OVDD
—V
Notes:
1. The symbols used for timing specifications follow the pattern of t(first two letters of functional block)(signal)(state)(reference)(state) for
inputs and t(first two letters of functional block)(reference)(state)(signal)(state) for outputs. For example, tI2DVKH symbolizes I
2C timing (I2)
with respect to the time data input signals (D) reach the valid state (V) relative to the tI2C clock reference (K) going to the high
(H) state or setup time. Also, tI2SXKL symbolizes I
2C timing (I2) for the time that the data with respect to the start condition
(S) went invalid (X) relative to the tI2C clock reference (K) going to the low (L) state or hold time. Also, tI2PVKH symbolizes I
2C
timing (I2) for the time that the data with respect to the stop condition (P) reaching the valid state (V) relative to the tI2C clock
reference (K) going to the high (H) state or setup time. For rise and fall times, the latter convention is used with the appropriate
letter: R (rise) or F (fall).
2. As a transmitter, the MPC8548E provides a delay time of at least 300 ns for the SDA signal (refer to the VIH(min) of the SCL
signal) to bridge the undefined region of the falling edge of SCL to avoid unintended generation of Start or Stop condition.
When MPC8548E acts as the I2C bus master while transmitting, MPC8548E drives both SCL and SDA. As long as the load
on SCL and SDA are balanced, MPC8548E would not cause unintended generation of Start or Stop condition. Therefore,
the 300 ns SDA output delay time is not a concern. If, under some rare condition, the 300 ns SDA output delay time is required
for MPC8548E as transmitter, the following setting is recommended for the FDR bit field of the I2CFDR register to ensure
both the desired I2C SCL clock frequency and SDA output delay time are achieved, assuming that the desired I2C SCL clock
frequency is 400 kHz and the Digital Filter Sampling Rate Register (I2CDFSRR) is programmed with its default setting of
0x10 (decimal 16):
I2C source clock frequency
333 MHz
266 MHz
200 MHz
133 MHz
FDR bit setting
0x2A
0x05
0x26
0x00
Actual FDR divider selected
896
704
512
384
Actual I2C SCL frequency generated
371 kHz
378 kHz
390 kHz
346 kHz
For the detail of I2C frequency calculation, refer to Freescale Application Note AN2919,
Determining the I2C Frequency
Divider Ratio for SCL. Note that the I2C source clock frequency is half of the CCB clock frequency for MPC8548E.
3. The maximum tI2DXKL has only to be met if the device does not stretch the LOW period (tI2CL) of the SCL signal.
4. Guaranteed by design.
相关PDF资料
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MPC8547EVUAUJ 32-BIT, 1000 MHz, MICROPROCESSOR, CBGA783
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