MK10DN64VLF5 Freescale Semiconductor, MK10DN64VLF5 Datasheet

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MK10DN64VLF5

Manufacturer Part Number
MK10DN64VLF5
Description
ARM Microcontrollers - MCU Kinetis 64K
Manufacturer
Freescale Semiconductor
Datasheet

Specifications of MK10DN64VLF5

Rohs
yes
Core
ARM Cortex M4
Processor Series
K10P32M50SF0
Data Bus Width
32 bit
Maximum Clock Frequency
50 MHz
Program Memory Size
64 KB
Data Ram Size
16 KB
On-chip Adc
Yes
Operating Supply Voltage
1.71 V to 3.6 V
Operating Temperature Range
- 40 C to + 105 C
Package / Case
LQFP-48
Mounting Style
SMD/SMT

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Price
Part Number:
MK10DN64VLF5
Manufacturer:
Freescale Semiconductor
Quantity:
10 000
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MK10DN64VLF5
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Freescale Semiconductor
Data Sheet: Technical Data
K10 Sub-Family
Supports the following:
MK10DN32VLF5, MK10DX32VLF5,
MK10DN64VLF5, MK10DX64VLF5,
MK10DN128VLF5, MK10DX128VLF5,
MK10DN32VFT5, MK10DX32VFT5,
MK10DN64VFT5, MK10DX64VFT5,
MK10DN128VFT5, MK10DX128VFT5
Features
• Operating Characteristics
• Performance
• Memories and memory interfaces
• Clocks
• System peripherals
Freescale reserves the right to change the detail specifications as may be
required to permit improvements in the design of its products.
© 2011–2012 Freescale Semiconductor, Inc.
– Voltage range: 1.71 to 3.6 V
– Flash write voltage range: 1.71 to 3.6 V
– Temperature range (ambient): -40 to 105°C
– Up to 50 MHz ARM Cortex-M4 core with DSP
– Up to 128 KB program flash.
– Up to 32 KB FlexNVM on FlexMemory devices
– 2 KB FlexRAM on FlexMemory devices
– Up to 16 KB RAM
– Serial programming interface (EzPort)
– 3 to 32 MHz crystal oscillator
– 32 kHz crystal oscillator
– Multi-purpose clock generator
– Multiple low-power modes to provide power
– 4-channel DMA controller, supporting up to 41
– External watchdog monitor
– Software watchdog
– Low-leakage wakeup unit
instructions delivering 1.25 Dhrystone MIPS per
MHz
optimization based on application requirements
request sources
• Security and integrity modules
• Analog modules
• Timers
• Communication interfaces
– Hardware CRC module to support fast cyclic
– 128-bit unique identification (ID) number per chip
– 16-bit SAR ADC
– Two analog comparators (CMP) containing a 6-bit
– Voltage reference
– Programmable delay block
– Eight-channel motor control/general purpose/PWM
– Two-channel quadrature decoder/general purpose
– Periodic interrupt timers
– 16-bit low-power timer
– Carrier modulator transmitter
– Real-time clock
– SPI module
– I2C module
– Three UART modules
– I2S module
redundancy checks
DAC and programmable reference input
timer
timer
K10P48M50SF0
Document Number: K10P48M50SF0
Rev. 4 5/2012

Related parts for MK10DN64VLF5

MK10DN64VLF5 Summary of contents

Page 1

... Freescale Semiconductor Data Sheet: Technical Data K10 Sub-Family Supports the following: MK10DN32VLF5, MK10DX32VLF5, MK10DN64VLF5, MK10DX64VLF5, MK10DN128VLF5, MK10DX128VLF5, MK10DN32VFT5, MK10DX32VFT5, MK10DN64VFT5, MK10DX64VFT5, MK10DN128VFT5, MK10DX128VFT5 Features • Operating Characteristics – Voltage range: 1.71 to 3.6 V – Flash write voltage range: 1.71 to 3.6 V – Temperature range (ambient): -40 to 105°C • ...

Page 2

... DSPI switching specifications (full voltage range).46 6.8.3 I2C switching specifications..................................48 6.8.4 UART switching specifications..............................48 6.8.5 I2S/SAI Switching Specifications..........................48 6.9 Human-machine interfaces (HMI)......................................52 6.9.1 TSI electrical specifications...................................52 7 Dimensions...............................................................................54 7.1 Obtaining package dimensions.........................................54 8 Pinout........................................................................................54 8.1 K10 Signal Multiplexing and Pin Assignments..................54 8.2 K10 Pinouts.......................................................................56 9 Revision History........................................................................57 Freescale Semiconductor, Inc. ...

Page 3

... Qualification status K## Kinetis family A Key attribute M Flash memory type K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. http://www.freescale.com Description • Fully qualified, general market flow • Prequalification • K10 • Cortex-M4 w/ DSP • Cortex-M4 w/ DSP and FPU • Program flash only • ...

Page 4

... LQ = 144 LQFP ( mm) • 144 MAPBGA ( mm) • 256 MAPBGA ( mm) • MHz • MHz • 100 MHz • 120 MHz • 150 MHz • Tape and reel • (Blank) = Trays Values Freescale Semiconductor, Inc. ...

Page 5

... Description I Digital I/O weak pullup/ WP pulldown current 3.3 Definition: Attribute An attribute is a specified value or range of values for a technical characteristic that are guaranteed, regardless of whether you meet the operating requirements. K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Min. Max. 0.9 1.1 Min. Max. 10 130 ...

Page 6

... Result of exceeding a rating Measured characteristic K10 Sub-Family Data Sheet, Rev. 4 5/2012. 6 Min. — 7 Min. –0.3 1.2 The likelihood of permanent chip failure increases rapidly as soon as a characteristic begins to exceed one of its operating ratings. Operating rating Max. Unit pF Max. Unit V Freescale Semiconductor, Inc. ...

Page 7

... Typical values are provided as design guidelines and are neither tested nor guaranteed. K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Normal operating range Degraded operating range - No permanent failure - No permanent failure ...

Page 8

... Typical values assume you meet the following conditions (or other conditions as specified): Symbol T Ambient temperature A V 3.3 V supply voltage DD K10 Sub-Family Data Sheet, Rev. 4 5/2012. 8 Min. Typ 1.00 1.05 1.10 V (V) DD Description Value 25 3.3 Max. Unit 130 µ 150 °C 105 °C 25 °C –40 °C Unit °C V Freescale Semiconductor, Inc. ...

Page 9

... Determined according to JEDEC Standard JESD22-C101, Field-Induced Charged-Device Model Test Method for Electrostatic-Discharge-Withstand Thresholds of Microelectronic Components. 4.4 Voltage and current operating ratings Symbol Description V Digital supply voltage DD K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Min. –55 — Min. — Min. -2000 -500 -100 Table continues on the next page ...

Page 10

... Nonswitching electrical specifications K10 Sub-Family Data Sheet, Rev. 4 5/2012. 10 Min. Max. Unit — 155 mA –0 0 –0 0 – – –0.3 3.8 V Freescale Semiconductor, Inc. ...

Page 11

... Select the larger of these two calculated resistances. IN AIO_MAX IC 5.2.2 LVD and POR operating requirements Table Symbol Description V Falling VDD POR detect voltage POR K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Min. 1.71 1.71 –0.1 –0.1 1.71 0.7 × V 0.75 × V — — 0.06 × — ...

Page 12

... Falling VBAT supply POR detect voltage POR_VBAT K10 Sub-Family Data Sheet, Rev. 4 5/2012. 12 Min. Typ. Max. Unit 2.48 2.56 2.64 2.62 2.70 2.78 2.72 2.80 2.88 2.82 2.90 2.98 2.92 3.00 3.08 — ±80 — mV 1.54 1.60 1.66 1.74 1.80 1.86 1.84 1.90 1.96 1.94 2.00 2.06 2.04 2.10 2.16 — ±60 — mV 0.97 1.00 1.03 900 1000 1100 Min. Typ. Max. Unit 0.8 1.1 1.5 Freescale Semiconductor, Inc. Notes μs Notes V ...

Page 13

... Power mode transition operating behaviors All specifications except t POR assume this clock configuration: • CPU and system clocks = 50 MHz • Bus clock = 50 MHz • Flash clock = 25 MHz K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Min – 0 – ...

Page 14

... Table continues on the next page... Max. Unit Notes 300 μs 1 130 μs 130 μs 70 μs 70 μs 6 μs 5.2 μs 5.2 μs Max. Unit Notes See note 15 18.2 mA 17.7 mA 18 Freescale Semiconductor, Inc. ...

Page 15

... I Very low-leakage stop mode 0 current at 3.0 V DD_VLLS0 with POR detect circuit enabled • @ –40 to 25°C • @ 70°C • @ 105°C K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Min. Typ. — 867 — 1.1 — 509 — ...

Page 16

... For the ALLOFF curve, all peripheral clocks are disabled except FTFL K10 Sub-Family Data Sheet, Rev. 4 5/2012. 16 Min. Typ. Max. Unit — 0.176 0.859 μA — 2.2 13.1 μA — 13 23.9 μA — 0.19 0.22 μA — 0.49 0.64 μA — 2.2 3.2 μA — 0.57 0.67 μA — 0.90 1.2 μA — 2.4 3.5 μA — 0.67 0.94 μA — 1.0 1.4 μA — 2.7 3.9 μA Freescale Semiconductor, Inc. Notes 9 ...

Page 17

... Figure 2. Run mode supply current vs. core frequency K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. General 17 ...

Page 18

... TEM Cell Method. Measurements were made while the microcontroller was running basic application code. The reported K10 Sub-Family Data Sheet, Rev. 4 5/2012. 18 Frequency Typ. Unit band (MHz) 0.15–50 19 dBμV 50–150 21 dBμV 150–500 19 dBμV 500–1000 11 dBμV 0.15–1000 L — Freescale Semiconductor, Inc. Notes ...

Page 19

... System and core clock SYS f Bus clock BUS f Flash clock FLASH f External reference clock ERCLK K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc MHz 48MHz SYS BUS Table 8. Capacitance attributes Min. Normal run mode — — — — 1 VLPR mode — ...

Page 20

... Table continues on the next page... Max. Unit Notes 25 MHz 16 MHz 12.5 MHz 4 MHz Max. Unit Notes — Bus clock 1, 2 cycles — — — — Bus clock cycles Freescale Semiconductor, Inc. ...

Page 21

... Four-layer R Thermal θJA (2s2p) resistance, junction to ambient (natural convection) K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Min. — — — — 48 LQFP 48 QFN Table continues on the next page... General Max. Unit ...

Page 22

... Determined according to JEDEC Standard JESD51-2, Integrated Circuits Thermal Test Method Environmental Conditions—Natural Convection (Still Air). 6 Peripheral operating requirements and behaviors 6.1 Core modules K10 Sub-Family Data Sheet, Rev. 4 5/2012 LQFP 48 QFN Unit 58 66 °C °C °C/W 18 1.4 °C °C/W Notes 1 Freescale Semiconductor, Inc. ...

Page 23

... TCLK low to TDO data valid J11 Output data hold/invalid time after clock edge 1. They are common for JTAG and CJTAG. Input transition = 1 ns and Output load = 50pf TCLK (input) K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Figure 4 ...

Page 24

... TDO TDO K10 Sub-Family Data Sheet, Rev. 4 5/2012 J11 J12 J11 Figure 6. Test Access Port timing J5 J6 Input data valid Output data valid Output data valid J9 J10 Input data valid Output data valid Output data valid Freescale Semiconductor, Inc. ...

Page 25

... Loss of external clock minimum frequency — loc_low RANGE = 00 f Loss of external clock minimum frequency — loc_high RANGE = 01, 10 K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors J14 Figure 7. TRST timing Table 13. MCG specifications Min. Typ. — ...

Page 26

... MHz 2, 50 MHz 75 MHz 100 MHz — MHz 4, — MHz — MHz — MHz ps 180 — 150 — — — 100 MHz — µA 600 — µA — 4.0 MHz 120 — — ps Freescale Semiconductor, Inc ...

Page 27

... Supply current — low-power mode (HGO=0) DDOSC • 32 kHz • 4 MHz • 8 MHz (RANGE=01) • 16 MHz • 24 MHz • 32 MHz K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. Typ. — 1350 — 600 ± 1.49 — ...

Page 28

... MΩ — MΩ — — MΩ 1 — MΩ — — kΩ 200 — kΩ — — kΩ 0 — kΩ 0.6 — — 0.6 — — Freescale Semiconductor, Inc ...

Page 29

... This section describes the module electrical characteristics. 6.3.3.1 32 kHz oscillator DC electrical specifications Table 16. 32kHz oscillator DC electrical specifications Symbol Description V Supply voltage BAT R Internal feedback resistor F K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. Typ. 32 — 3 — 8 — — — ...

Page 30

... Min. — — — — Typ. Max 0.6 — Typ. Max. Unit Notes 32.768 — kHz 1000 — ms 32.768 — kHz V — mV BAT Typ. Max. Unit Notes 7.5 18 μs 13 113 ms 52 452 ms 52 452 ms Freescale Semiconductor, Inc. Unit ...

Page 31

... Byte-write to FlexRAM execution time: t • EEPROM backup eewr8b8k • EEPROM backup t eewr8b16k • EEPROM backup t eewr8b32k K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. — — — — — — — — ...

Page 32

... Typ. Max. Unit 2.5 6.0 mA 1.5 4.0 mA Max. Unit Notes 1 Typ. 50 — years 100 — years 50 K — cycles 50 — years Freescale Semiconductor, Inc. 2 ...

Page 33

... EEPROM – 2 × EEESIZE Writes_FlexRAM = EEESIZE where • Writes_FlexRAM — minimum number of writes to each FlexRAM location K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. 1 Typ. 20 100 ...

Page 34

... Figure 8. EEPROM backup writes to FlexRAM 6.4.2 EzPort Switching Specifications Table 22. EzPort switching specifications Num Description Operating voltage K10 Sub-Family Data Sheet, Rev. 4 5/2012. 34 Table continues on the next page... Min. Max. Unit 1.71 3.6 V Freescale Semiconductor, Inc. ...

Page 35

... EZP_CS EZP_Q (output) EZP_D (input) 6.5 Security and integrity modules There are no specifications necessary for the device's security and integrity modules. 6.6 Analog K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors EP3 EP2 EP4 EP9 EP8 EP7 ...

Page 36

... Table continues on the next page... are achievable on the Max. Unit Notes 3.6 V +100 mV 2 +100 DDA V V SSA V V REFH kΩ kΩ 4 18.0 MHz 4 12.0 MHz 5 818.330 Ksps Freescale Semiconductor, Inc. ...

Page 37

... ADC electrical characteristics Table 24. 16-bit ADC characteristics (V Symbol Description Conditions I Supply current DDA_ADC K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. 1 Typ. 37.037 — = 1.0 MHz unless otherwise stated. Typical values are for ADCK ...

Page 38

... SSA 2 Max. Unit Notes 3 MHz ADACK f ADACK 7.3 MHz 6.1 MHz 9.5 MHz ±6 LSB ±2.1 -1 LSB +1.9 -0.3 to 0.5 -2 LSB +1.9 -0.7 to +0.5 -5 LSB ADIN V DDA -1.8 5 — 4 LSB ±0.5 6 — bits — bits — bits — bits dB 7 — dB — dB Freescale Semiconductor, Inc. ...

Page 39

... ADC conversion clock <16MHz, Max hardware averaging (AVGE = %1, AVGS = %11) 6. Input data is 100 Hz sine wave. ADC conversion clock <12MHz. 7. Input data is 1 kHz sine wave. ADC conversion clock <12MHz. K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors = ...

Page 40

... Peripheral operating requirements and behaviors Figure 11. Typical ENOB vs. ADC_CLK for 16-bit differential mode Figure 12. Typical ENOB vs. ADC_CLK for 16-bit single-ended mode K10 Sub-Family Data Sheet, Rev. 4 5/2012. 40 Freescale Semiconductor, Inc. ...

Page 41

... Comparator initialization delay is defined as the time between software writes to change control inputs (Writes to DACEN, VRSEL, PSEL, MSEL, VOSEL) and the comparator output settling to a stable level LSB = V /64 reference K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. 1.71 — — ...

Page 42

... Peripheral operating requirements and behaviors 0.08 0.07 0.06 0.05 0.04 0.03 0.02 0.01 0 0.1 0.4 0.7 Figure 13. Typical hysteresis vs. Vin level (VDD=3.3V, PMODE=0) K10 Sub-Family Data Sheet, Rev. 4 5/2012 1.3 1.6 1.9 2.2 Vin level (V) HYSTCTR S etting 2.5 2.8 3.1 Freescale Semiconductor, Inc. ...

Page 43

... Table 27. VREF full-range operating behaviors Symbol Description V Voltage reference output with factory trim at out nominal V and temperature=25C DDA K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors 1 1.3 1.6 1.9 2.2 Vin level (V) Min. 1.71 −40 value over the operating temperature range of L Min ...

Page 44

... Min. Max. Unit 0 50 °C Min. Max. Unit 1.173 1.225 V Freescale Semiconductor, Inc. Unit Notes µ µ µ Notes Notes ...

Page 45

... DSPI_SIN DSPI_SOUT Figure 15. DSPI classic SPI timing — master mode Table 31. Slave mode DSPI timing (limited voltage range) Num Operating voltage Frequency of operation K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. 2.7 — BUS (t /2) − ...

Page 46

... Max. Unit — ns BUS (t /2) − / SCK SCK — — — — ns — — DS9 DS16 DS11 Last data Last data Max. Unit Notes 3 12.5 MHz — SCK/2) Freescale Semiconductor, Inc. ...

Page 47

... DSPI_SIN to DSPI_SCK input setup DS14 DSPI_SCK to DSPI_SIN input hold DS15 DSPI_SS active to DSPI_SOUT driven DS16 DSPI_SS inactive to DSPI_SOUT not driven K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min − BUS − ...

Page 48

... K10 Sub-Family Data Sheet, Rev. 4 5/2012. 48 DS10 DS15 DS12 First data Data DS14 First data Data DS9 DS16 DS11 Last data Last data Freescale Semiconductor, Inc. ...

Page 49

... I2S_MCLK (output) I2S_TX_BCLK/ I2S_RX_BCLK (output I2S_TX_FS/ I2S_RX_FS (output) I2S_TX_FS/ I2S_RX_FS (input) S7 I2S_TXD I2S_RXD Figure 19. I2S/SAI timing — master modes K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. 1.71 40 45% 80 45% — 0 — ...

Page 50

... VLPR, VLPW, and VLPS modes. K10 Sub-Family Data Sheet, Rev. 4 5/2012. 50 Min. 1. — — 1 S11 S12 S15 S16 S18 Max. Unit 3.6 V — ns 55% MCLK period — ns — — ns — ns — S16 S14 S16 Freescale Semiconductor, Inc. ...

Page 51

... Figure 21. I2S/SAI timing — master modes Table 37. I2S/SAI slave mode timing in VLPR, VLPW, and VLPS modes (full voltage range) Num. Characteristic Operating voltage S11 I2S_TX_BCLK/I2S_RX_BCLK cycle time (input) K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. 1.71 62.5 45% 250 45% — ...

Page 52

... S15 S19 S16 S17 S18 Min. 1.71 1 Table continues on the next page... K10 Sub-Family Data Sheet, Rev. 4 5/2012. Max. Unit 55% MCLK period — ns — — ns — ns — S16 S14 S16 Typ. Max. Unit Notes — 3 500 pF Freescale Semiconductor, Inc. 1 ...

Page 53

... Time to do one complete measurement of the electrode. Sensitivity resolution of 0.0133 pF NSCN = 0, 1 electrode, EXTCHRG = 7. 13. REFCHRG=0, EXTCHRG=4, PS=7, NSCN=0F, LPSCNITV=F, LPO is selected (1 kHz), and fixed external capacitance of 20 pF. Data is captured with an average of 7 periods window. K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Min. Typ. Max. ...

Page 54

... Then use this document number 98ASH00962A 98ARH99048A ALT1 ALT2 ALT3 ALT4 PTE16 SPI0_PCS0 UART2_TX FTM_CLKIN0 PTE17 SPI0_SCK UART2_RX FTM_CLKIN1 PTE18 SPI0_SOUT UART2_CTS_b I2C0_SDA PTE19 SPI0_SIN UART2_RTS_b I2C0_SCL and perform a keyword ALT5 ALT6 ALT7 EzPort FTM0_FLT3 LPTMR0_ALT3 Freescale Semiconductor, Inc. ...

Page 55

... PTC3/ CMP1_IN1 CMP1_IN1 LLWU_P7 37 PTC4/ DISABLED LLWU_P8 38 PTC5/ DISABLED LLWU_P9 39 PTC6/ CMP0_IN0 CMP0_IN0 LLWU_P10 K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. ALT1 ALT2 ALT3 ALT4 PTA0 UART0_CTS_ FTM0_CH5 b/ UART0_COL_b PTA1 UART0_RX FTM0_CH6 PTA2 UART0_TX FTM0_CH7 PTA3 UART0_RTS_b FTM0_CH0 PTA4/ ...

Page 56

... LLWU_P12 PTD1 SPI0_SCK UART2_CTS_b PTD2/ SPI0_SOUT UART2_RX LLWU_P13 PTD3 SPI0_SIN UART2_TX PTD4/ SPI0_PCS1 UART0_RTS_b FTM0_CH4 LLWU_P14 PTD5 SPI0_PCS2 UART0_CTS_ FTM0_CH5 b/ UART0_COL_b PTD6/ SPI0_PCS3 UART0_RX FTM0_CH6 LLWU_P15 PTD7 CMT_IRO UART0_TX FTM0_CH7 ALT5 ALT6 ALT7 EzPort EWM_IN EWM_OUT_b FTM0_FLT0 FTM0_FLT1 Freescale Semiconductor, Inc. ...

Page 57

... Revision History The following table provides a revision history for this document. Rev. No. Date Substantial Changes 2 2/2012 Initial public release K10 Sub-Family Data Sheet, Rev. 4 5/2012. Freescale Semiconductor, Inc. Table 39. Revision History Table continues on the next page... Revision History PTC3/LLWU_P7 36 PTC2 35 PTC1/LLWU_P6 ...

Page 58

... Corrected the following DSPI switching specifications: tightened DS5, DS6, and DS7; relaxed DS11 and DS13. • Removed references to USB as non-applicable. • For the "TSI electrical specifications", changed and clarified the example calculations for the MaxSens specification. K10 Sub-Family Data Sheet, Rev. 4 5/2012. 58 Freescale Semiconductor, Inc. ...

Page 59

... Freescale Semiconductor makes no warranty, representation, or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any liability, including without limitation consequential or incidental damages. "Typical" parameters that may be provided in Freescale Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time ...

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