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參數(shù)資料
| 型號: | MPC5603CF1VLL6 |
| 廠商: | FREESCALE SEMICONDUCTOR INC |
| 元件分類: | 微控制器/微處理器 |
| 英文描述: | MICROCONTROLLER, PQFP100 |
| 封裝: | 14 X 14 MM, 1.40 MM HEIGHT, 0.50 MM PITCH, LQFP-100 |
| 文件頁數(shù): | 60/106頁 |
| 文件大?。?/td> | 1693K |
| 代理商: | MPC5603CF1VLL6 |
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Electrical characteristics
MPC5604B/C Microcontroller Data Sheet, Rev. 8
Freescale Semiconductor
57
IDDSTDBY2 CC P STANDBY2 mode current
9 Slow internal RC oscillator
(128 kHz) running
T= 25 °C
—
30
100
A
DTA =55°C
—
75
—
DTA =85°C
—
180
—
DTA = 105 °C
—
315
—
PTA = 125 °C
—
560
1700
IDDSTDBY1 CC T STANDBY1 mode
current10
Slow internal RC oscillator
(128 kHz) running
TA = 25 °C
—
20
60
A
DTA =55°C
—
45
—
DTA =85°C
—
100
—
DTA = 105 °C
—
165
—
DTA = 125 °C
—
280
900
1 V
DD = 3.3 V ± 10% / 5.0 V ± 10%, TA = 40 to 125 °C, unless otherwise specified
2 Running consumption is given on voltage regulator supply (V
DDREG). IDDMAX is composed of three components:
IDDMAX = IDD(vdd_bv) + IDD(vdd_hv) + IDD(Vdd_hv_adc). It does not include a fourth component linked to I/Os
toggling which is highly dependent on the application. The given value is thought to be a worst case value with all
peripherals running, and code fetched from code flash while modify operation on-going on data flash. It is to be
noticed that this value can be significantly reduced by application: switch-off not used peripherals (default), reduce
peripheral frequency through internal prescaler, fetch from RAM most used functions, use low power mode when
possible.
3 Higher current may be sinked by device during power-up and standby exit. please refer to in rush current on Table 21.
4 RUN current measured with typical application with accesses on both flash and RAM.
5 Only for the “P” classification: Data and Code Flash in Normal Power. Code fetched from RAM: Serial IPs CAN and
LIN in loop back mode, DSPi as Master, PLL as system Clock (4 x Multiplier) peripherals on (eMIOS/CTU/ADC) and
running at max frequency, periodic SW/WDG timer reset enabled.
6 Data Flash Power Down. Code Flash in Low Power. RC-osc128kHz & RC-OSC 16MHz on. 10MHz XTAL clock.
FlexCAN: instances: 0, 1, 2 ON (clocked but not reception or transmission), instances: 4, 5, 6 clock gated. LINFlex:
instances: 0, 1, 2 ON (clocked but not reception or transmission), instance: 3 clock gated. eMIOS: instance: 0 ON
(16 channels on PA[0]-PA[11] and PC[12]-PC[15]) with PWM 20kHz, instance: 1 clock gated. DSPI: instance: 0
(clocked but no communication). RTC/API ON.PIT ON. STM ON. ADC ON but not conversion except 2 analogue
watchdog
7 Only for the “P” classification: No clock, RC 16MHz off, RC128kHz on, PLL off, HPvreg off, ULPVreg/LPVreg on. All
possible peripherals off and clock gated. Flash in power down mode.
8 When going from RUN to STOP mode and the core consumption is > 6 mA , it is normal operation for the main
regulator module to be kept on by the on-chip current monitoring circuit. This is most likely to occur with junction
temperatures exceeding 125 °C and under these circumstances, it is possible for the current to initially exceed the
maximum STOP specification by up to 2 mA. After entering stop, the application junction temperature will reduce to
the ambient level and the main regulator will be automatically switched off when the load current is below 6 mA.
9 Only for the “P” classification: ULPreg on, HP/LPVreg off, 32kB RAM on, device configured for minimum
consumption, all possible modules switched-off.
10 ULPreg on, HP/LPVreg off, 8kB RAM on, device configured for minimum consumption, all possible modules
switched-off.
Table 23. Low voltage power domain electrical characteristics (continued)
Symbol
C
Parameter
Conditions1
Value
Unit
Min
Typ
Max
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