MCF51JF32VHS Freescale Semiconductor, MCF51JF32VHS Datasheet
MCF51JF32VHS
Specifications of MCF51JF32VHS
Related parts for MCF51JF32VHS
MCF51JF32VHS Summary of contents
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... Freescale Semiconductor Data Sheet: Technical Data MCF51JF128 Supports the MCF51JF128VLH, MCF51JF128VHS, MCF51JF64VLF, MCF51JF64VHS, MCF51JF32VHS, MCF51JF32VFM Features • Operating characteristics – Voltage range: 1. 3.6 V – Flash write voltage range: 1. 3.6 V – Temperature range (ambient): -40°C to 105°C • Core – MHz V1 ColdFire CPU – ...
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... Mini-Flexbus Switching Specifications..................32 ADC electrical specifications.................................36 CMP and 6-bit DAC electrical specifications.........38 12-bit DAC electrical characteristics.....................41 Voltage reference electrical specifications............44 USB electrical specifications.................................46 USB DCD electrical specifications........................46 USB VREG electrical specifications......................46 SPI switching specifications..................................47 I2S/SAI Switching Specifications..........................51 TSI electrical specifications...................................53 Freescale Semiconductor, Inc. ...
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... Fields This table lists the possible values for each field in the part number (not all combinations are valid): Field Q CCCC DD Freescale Semiconductor, Inc. Description Qualification status Core code Device number Table continues on the next page... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Ordering parts Values • ...
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... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Values • • • 128 = 128 –40 to 105 • QFN ( mm) • Laminate QFN ( mm) • LQFP ( mm) • LQFP ( mm) Max. Unit V Freescale Semiconductor, Inc. ...
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... Definition: Rating A rating is a minimum or maximum value of a technical characteristic that, if exceeded, may cause permanent chip failure: • Operating ratings apply during operation of the chip. • Handling ratings apply when the chip is not powered. Freescale Semiconductor, Inc. Min. 10 130 Min. — ...
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... Operating rating Normal operating range - No permanent failure - No permanent failure - Correct operation - Possible decreased life - Possible incorrect operation Handling range - No permanent failure MCF51JF128 Data Sheet, Rev. 6, 01/2012. Max. Unit V Limited Fatal operating range range - Probable permanent failure Freescale Semiconductor, Inc. ∞ ...
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... This is an example of an operating behavior that includes a typical value: Symbol Description I Digital I/O weak WP pullup/pulldown current 3.8.2 Example 2 This is an example of a chart that shows typical values for various voltage and temperature conditions: Freescale Semiconductor, Inc. Min. Typ MCF51JF128 Data Sheet, Rev. 6, 01/2012. Terminology and guidelines Max. Unit 130 µA ...
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... Solid State Surface Mount Devices. 8 1.00 1.05 1.10 V (V) DD Min. –55 — — Min. — MCF51JF128 Data Sheet, Rev. 6, 01/2012 150 °C 105 °C 25 °C –40 °C Max. Unit Notes 150 °C 1 260 °C 2 245 Max. Unit Notes 3 — 1 Freescale Semiconductor, Inc. ...
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... USB Regulator input 5 General 5.1 Typical Value Conditions Typical values assume you meet the following conditions (or other conditions as specified): Symbol T Ambient temperature A Freescale Semiconductor, Inc. Min. -2000 -500 -100 Description Value 25 Table continues on the next page... MCF51JF128 Data Sheet, Rev. 6, 01/2012. General Max ...
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... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Unit V Max. Unit Notes 3.6 V 3.6 V 0.1 V 0.1 V — — 0.35 × 0.3 × –0 –5 mA — V (min.) and less than or equal to IH (max.) and greater than or equal to IL Freescale Semiconductor, Inc ...
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... V LVW3L • Level 4 falling (LVWV=11) V LVW4L V Low-voltage inhibit reset/recover hysteresis — HYSL low range V Bandgap voltage reference BG t Internal low power oscillator period LPO factory trimmed 1. Rising thresholds are falling threshold + hysteresis voltage Freescale Semiconductor, Inc. Min. 0.8 2.48 2.62 2.72 2.82 2.92 — 1.54 1.74 1.84 1.94 2.04 — 0.97 900 MCF51JF128 Data Sheet, Rev. 6, 01/2012. ...
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... OL — — — — — and VLLSx-RUN recovery times in the following table MCF51JF128 Data Sheet, Rev. 6, 01/2012. Max. Unit Notes — V — V — V — V 100 mA 0.5 V 0.5 V 0.5 V 0.5 V 100 mA 1.0 μA 1 0.1 μA 1 μA 4 μA 50 kΩ kΩ 3 Freescale Semiconductor, Inc. ...
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... DD_RUN disabled, code executing from RAM • @ 1.8 V • Run mode current — all peripheral clocks DD_RUN disabled, code executing from flash memory with page buffering disabled • @ 1.8 V • @ 3.0 V Freescale Semiconductor, Inc. Min. — DD — — — — — — Min. ...
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... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Typ. Max. Unit Notes 5.8 6 0.34 0.41 mA 0.90 1.8 mA 0.63 1. 0.78 1. 0.15 0. μ 145 312 8,9,10 3.0 4.8 μA 53.3 157 μA 8,9,10 1.8 3.3 μA 39.2 115 μA 8,9 1.6 2.8 μA 22.2 65 μA 8,9 1.4 2.6 μA 17.6 50 μA 11 0.7 — μA Freescale Semiconductor, Inc. ...
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... For the ALLON curve, all peripheral clocks are enabled, but peripherals are not in active operation • USB Voltage Regulator disabled • No GPIOs toggled • Code execution from flash memory with cache enabled Freescale Semiconductor, Inc. MCF51JF128 Data Sheet, Rev. 6, 01/2012. Nonswitching electrical specifications 15 ...
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... Nonswitching electrical specifications Figure 1. Run mode supply current vs. core frequency 16 MCF51JF128 Data Sheet, Rev. 6, 01/2012. Freescale Semiconductor, Inc. ...
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... Determined according to IEC Standard 61967-1, Integrated Circuits - Measurement of Electromagnetic Emissions, 150 kHz to 1 GHz Part 1: General Conditions and Definitions, and IEC Standard 61967-2, Integrated Circuits - Measurement of Electromagnetic Emissions, 150 kHz to 1 GHz Part 2: Measurement of Radiated Emissions—TEM Cell and Wideband TEM Cell Method. Freescale Semiconductor, Inc. Frequency band (MHz) 0.15–50 50– ...
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... Normal run mode — 20 — — — VLPR mode — — — — MCF51JF128 Data Sheet, Rev. 6, 01/2012. Min. Max. Unit — — Max. Unit Notes 50 MHz — MHz 25 MHz 25 MHz 1 25 MHz 2 MHz 1 MHz 1 MHz 1 25 MHz Freescale Semiconductor, Inc. ...
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... External reset pulse width (digital glitch filter disabled) Mode select (MS) hold time after reset deassertion 1. The greater synchronous and asynchronous timing must be met. 2. This is the shortest pulse that is guaranteed to be recognized. Bus clock Data outputs Data inputs Freescale Semiconductor, Inc. — — 1.5 100 ...
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... Die junction temperature J T Ambient temperature 3 1.71 V, and full DD — — Figure 4. RGPIO timing diagram MCF51JF128 Data Sheet, Rev. 6, 01/2012. Min. Max — ns — Min. Max. Unit –40 115 –40 105 Freescale Semiconductor, Inc. Unit °C °C ...
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... 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 6.1.1 Debug specifications Table 12. Background debug mode (BDM) timing Number Symbol 1 t MSSU 2 t MSH Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors 64 LQFP 48 LQFP 5.0 4.0 ...
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... MCF51JF128 Data Sheet, Rev. 6, 01/2012. MSH Typ. Max. Unit Notes 32.768 — kHz — 39.0625 kHz ± 0.3 ± 0.6 %f dco ± 0.2 ± 0.5 %f dco ± 10 — %f dco ± 4.5 — %f dco 3.3 4 MHz — 5 MHz — — kHz — — kHz — 39.0625 kHz Freescale Semiconductor, Inc. after ...
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... MHz vco • 100 MHz vco J PLL accumulated jitter over 1µs (RMS) acc_pll • MHz vco • 100 MHz vco Freescale Semiconductor, Inc. Min. 20 640 × f fll_ref 40 1280 × f fll_ref 60 1920 × f fll_ref 80 2560 × f fll_ref — 732 × f fll_ref — ...
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... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Typ. Max. Unit Notes — ± 2.98 % — ± 5.97 % — 150 × 1075( pll_ref Typ. Max. Unit Notes — 3.6 V 500 — nA 200 — μA 200 — μA 300 — μA 950 — μA 1.2 — mA 1.5 — mA Freescale Semiconductor, Inc ...
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... Series resistor — high-frequency, high-gain mode (HGO=1) • 1 MHz resonator • 2 MHz resonator • 4 MHz resonator • 8 MHz resonator • 16 MHz resonator • 20 MHz resonator • 32 MHz resonator Freescale Semiconductor, Inc. Min. — — — — — — — — ...
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... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Typ. Max. Unit Notes 0.6 — — 0.6 — — Typ. Max. Unit Notes — 40 kHz — 8 MHz — 32 MHz — 50 MHz 750 — 250 — ms 0.6 — — ms Freescale Semiconductor, Inc ...
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... Read Resource execution time rdrsrc t Program Longword execution time pgm4 Erase Flash Block execution time t • data flash ersblk32k • 128 KB program flash t ersblk128k Freescale Semiconductor, Inc. Min. — — — — Min. — — — — — — — ...
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... Freescale Semiconductor, Inc ...
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... Data retention after up to 100 cycles nvmretd100 n Cycling endurance nvmcycd t Data retention up to 100% of write endurance nvmretee100 t Data retention up to 10% of write endurance nvmretee10 t Data retention write endurance nvmretee1 Freescale Semiconductor, Inc. Min. — — — Min. Program Flash Data Flash 5 10 ...
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... Write_efficiency — 30 Min 315 K 1. × Write_efficiency × n MCF51JF128 Data Sheet, Rev. 6, 01/2012. Max. Unit Notes 1 Typ. 175 K — writes 1.6 M — writes 6.4 M — writes 50 M — writes 100 M — writes ≤ 125°C. j nvmcycd Freescale Semiconductor, Inc. 4 ...
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... Operating voltage EP1 EZP_CK frequency of operation (all commands except READ) EP1a EZP_CK frequency of operation (READ command) EP2 EZP_CS negation to next EZP_CS assertion Freescale Semiconductor, Inc. Table continues on the next page... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Memories and memory interfaces Min. Max. Unit 2.7 3 ...
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... EP3 EP2 EP4 EP9 EP8 EP7 EP5 EP6 Figure 6. EzPort Timing Diagram MCF51JF128 Data Sheet, Rev. 6, 01/2012. Min. Max. Unit 15 — ns 0.0 — — ns 0.0 — ns — 0.0 — ns — Freescale Semiconductor, Inc. ...
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... Specification is valid for all FB_AD[31:0]. The following diagrams refer to signal names that may not be included on your particular device. Ignore these extraneous signals. Also, ignore the AA=0 portions of the diagrams because this setting is not supported in the Mini-FlexBus. Freescale Semiconductor, Inc. Min. 1.71 — 40 — ...
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... Memories and memory interfaces FB1 FB_CLK FB_A[Y] FB2 FB_D[X] Address FB_RW FB_TS FB_ALE FB_CSn FB_OEn FB_BEn FB_TA FB_TSIZ[1:0] Figure 7. Mini-FlexBus read timing diagram 34 FB3 FB5 Address FB4 Data AA=1 AA=0 FB4 FB5 AA=1 AA=0 TSIZ MCF51JF128 Data Sheet, Rev. 6, 01/2012. Freescale Semiconductor, Inc. ...
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... FB_RW FB_TS FB_ALE FB_CSn FB_OEn FB_BEn FB_TA FB_TSIZ[1:0] Figure 8. Mini-FlexBus write timing diagram 6.5 Security and integrity modules There are no specifications necessary for the device's security and integrity modules. Freescale Semiconductor, Inc. FB3 Address Data AA=1 AA=0 FB4 FB5 AA=1 AA=0 TSIZ MCF51JF128 Data Sheet, Rev. 6, 01/2012. ...
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... MHz unless otherwise stated. Typical values are for ADCK MCF51JF128 Data Sheet, Rev. 6, 01/2012. 1 Max. Unit Notes 3.6 V +100 mV 2 +100 DDA V V SSA V V REFH kΩ kΩ 4 18.0 MHz 5 818.330 Ksps Freescale Semiconductor, Inc ...
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... DNL Differential non- • 12 bit modes linearity • <12 bit modes INL Integral non- • 12 bit modes linearity • <12 bit modes Freescale Semiconductor, Inc. SIMPLIFIED INPUT PIN EQUIVALENT CIRCUIT Pad leakage due to input protection V ADIN INPUT PIN INPUT PIN ...
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... LSB I × leakage current (refer to the MCU's voltage current operating ratings) 1.715 — mV/°C 719 — mV Typ. Max. — 3.6 — 200 — 20 — — 20 Freescale Semiconductor, Inc. Notes = ADIN V DDA and Unit V μA μ ...
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... Typical hysteresis is measured with input voltage range limited to 0 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 Freescale Semiconductor, Inc. Min. 1 — — — ...
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... Analog 0.08 0.07 0.06 0.05 0.04 0.03 0.02 0.01 0 0.1 0.4 0.7 Figure 10. Typical hysteresis vs. Vin level (VDD=3.3V, PMODE= 1.3 1.6 1.9 Vin level (V) MCF51JF128 Data Sheet, Rev. 6, 01/2012. HYSTCTR S etting 2.2 2.5 2.8 3.1 Freescale Semiconductor, Inc ...
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... A C Output load capacitance L I Output load current L 1. The DAC reference can be selected to be VDDA or the voltage output of the VREF module (VREF_OUT small load capacitance (47 pF) can improve the bandwidth performance of the DAC Freescale Semiconductor, Inc. 1 1.3 1.6 1.9 Vin level (V) Min. 1.71 1.13 − ...
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... Notes 450 μA 1000 μA 200 μ μ μs 1 100 DACR ±8 LSB 2 ±1 LSB 3 ±1 LSB 4 ±0.8 %FSR 5 ±0.6 %FSR — μV/C 6 — %FSR/C 250 Ω V/μs — — -80 dB kHz — — Freescale Semiconductor, Inc. ...
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... Calculated by a best fit curve from V 6. VDDA = 3.0V, reference select set for VDDA (DACx_CO:DACRFS = 1), high power mode(DACx_C0:LPEN = 0), DAC set to 0x800, Temp range from -40C to 105C Figure 12. Typical INL error vs. digital code Freescale Semiconductor, Inc. +100 −100 mV SS DACR MCF51JF128 Data Sheet, Rev. 6, 01/2012. ...
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... Symbol Description V Supply voltage DDA T Temperature A C Output load capacitance must be connected to VREF_OUT if the VREF_OUT functionality is being used for either an internal or external L reference. 44 Min. 1.71 −40 MCF51JF128 Data Sheet, Rev. 6, 01/2012. Max. Unit Notes 3.6 V 105 °C 100 nF 1 Freescale Semiconductor, Inc. ...
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... Table 29. VREF limited-range operating requirements Symbol Description T Temperature A Table 30. VREF limited-range operating behaviors Symbol Description V Voltage reference output with factory trim out 6.7 Timers See General Switching Specifications. Freescale Semiconductor, Inc. Min. 1.1965 1.1584 1.198 — — — — — — — — Min. 0 Min. ...
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... Table continues on the next page... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Typ. Max. Unit — 0.7 — 2 μA 100 150 μA — 24.8 kΩ 0.33 0.4 Max. Unit Notes 1 Typ. — 5.5 V 120 186 μA 1.1 1.54 μA 650 — nA — 4 μA — 120 mA — Freescale Semiconductor, Inc ...
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... SPSCK period SPSCK 3 t Enable lead time Lead 4 t Enable lag time Lag 5 t Clock (SPSCK) high or low time WSPSCK Freescale Semiconductor, Inc. Min. 3 2.1 2.1 1.76 1 — and 70 Table continues on the next page... MCF51JF128 Data Sheet, Rev. 6, 01/2012. Communication interfaces 1 Max ...
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... BIT BIT MCF51JF128 Data Sheet, Rev. 6, 01/2012. Min. Max. Unit Comment 21 — — ns — — ns — BUS — LSB IN 9 LSB OUT Freescale Semiconductor, Inc. — — — — — — ...
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... Slave MISO disable time dis 10 t Data valid (after SPSCK edge Data hold time (outputs Freescale Semiconductor, Inc BIT BIT Table 34. SPI slave mode timing Table continues on the next page... <<CLASSIFICATION>> <<NDA MESSAGE>> ...
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... SLAVE LSB OUT BIT LSB BIT MSB OUT 7 BIT MCF51JF128 Data Sheet, Rev. 6, 01/2012. Min. Max. Unit Comment — BUS — SEE NOTE SLAVE LSB OUT LSB IN Freescale Semiconductor, Inc. — — ...
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... I2S_RXD/I2S_RX_FS input setup before I2S_RX_BCLK S10 I2S_RXD/I2S_RX_FS input hold after I2S_RX_BCLK S11 I2S_TX_FS input assertion to I2S_TXD output valid 1. This parameter is limited in VLPx modes. 2. Applies to first bit in each frame and only if the TCR4[FSE] bit is clear Freescale Semiconductor, Inc. Min. 1. 160 ...
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... Applies to first bit in each frame and only if the TCR4[FSE] bit is clear S10 Min. 1.71 80 160 45 — — 1 MCF51JF128 Data Sheet, Rev. 6, 01/2012. S6 S10 S8 Max. Unit 3.6 V — ns — 55% MCLK period — ns — — ns — ns — Freescale Semiconductor, Inc. ...
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... Pres5 Electrode capacitance measurement precision Pres20 Electrode capacitance measurement precision Pres100 Electrode capacitance measurement precision MaxSens Maximum sensitivity Res Resolution T Response time @ 20 pF Con20 Freescale Semiconductor, Inc. S11 S12 S15 S16 S18 Min. 1.71 1 — — 0.5 100 — ...
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... REFCHRG = 15, C ref http://www.freescale.com 98ARE10566D 98ASA00239D 98ASH00962A 98ASS23234W MCF51JF128 Data Sheet, Rev. 6, 01/2012. Typ. Max. Unit 55 — μA 1.3 2.5 μA = 1.0 pF. The ref = 32 μA, REFCHRG = 31, C ref and perform a keyword Then use this document number Freescale Semiconductor, Inc. Notes 12 ref = 0.5 ref ...
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... DAC0_OUT DAC0_OUT VREGIN VREGIN VOUT33 VOUT33 USB0_DM USB0_DM Freescale Semiconductor, Inc. NOTE ALT1 ALT2 ALT3 PTC6 UART0_TX I2C0_SCL RGPIO6 PTC7 UART0_RX I2C0_SDA RGPIO7 PTD0 UART0_CT I2C1_SDA RGPIO8 S_b PTD1 UART0_RT I2C1_SCL RGPIO9 S_b PTA0 ...
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... PTB5 MCF51JF128 Data Sheet, Rev. 6, 01/2012. ALT4 ALT5 ALT6 ALT7 FBa_D7 FBa_AD17 FBa_D6 FBa_AD0 FBa_D7 FBa_D6 FBa_D5 FBa_D4 FBa_D3 FBa_D2 FBa_D1 IRQ/ EZP_MS_b LPTMR_AL FTM0_QD_ FB_CLKOU T2 PHB T FBa_D0 FBa_OE_b FBa_CS0_b FBa_CS1_b FBa_ALE FBa_AD1 FBa_AD2 FBa_AD3 FBa_AD4 Freescale Semiconductor, Inc. EzPort EZP_CS_b ...
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... These diagrams are representations for ease of reference. See the package drawings for mechanical details. For each pin, the diagrams show the default function or (when disabled is the default) the ALT1 signal for a GPIO function. However, many signals may be multiplexed onto a single pin. Freescale Semiconductor, Inc. ALT1 ALT2 ALT3 PTB6 ...
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... PTC7 4 PTD0 5 PTD1 6 PTA0 7 PTA1 8 PTA2 9 PTA3 10 ADC0_SE2 11 ADC0_SE3 12 VDDA 13 VREFH 14 VREF_OUT 15 VREFL 16 58 Figure 20. 64-pin LQFP MCF51JF128 Data Sheet, Rev. 6, 01/2012. 48 VDD 47 EXTAL2 46 XTAL2 45 BKGD/MS 44 ADC0_SE22 43 ADC0_SE21 42 ADC0_SE20 41 ADC0_SE19/TSI0_CH15 40 ADC0_SE18/TSI0_CH14 39 ADC0_SE17/TSI0_CH13 38 ADC0_SE16/TSI0_CH12 37 TSI0_CH11 36 TSI0_CH10 35 IRQ/EZP_MS_b 34 TSI0_CH9 33 TSI0_CH8 Freescale Semiconductor, Inc. ...
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... PTD0 1 PTD1 2 PTA0 3 PTA1 4 PTA2 5 PTA3 6 ADC0_SE2 7 ADC0_SE3 8 VDDA 9 VREFH 10 VREF_OUT 11 VREFL 12 Freescale Semiconductor, Inc. Figure 21. 48-pin LQFP MCF51JF128 Data Sheet, Rev. 6, 01/2012. Pinout VSS 36 VDD 35 EXTAL2 34 XTAL2 33 32 BKGD/MS 31 ADC0_SE22 30 ADC0_SE20 29 ADC0_SE19/TSI0_CH15 ADC0_SE18/TSI0_CH14 28 ADC0_SE17/TSI0_CH13 27 TSI0_CH10 26 IRQ/EZP_MS_b 25 59 ...
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... Pinout PTA0 PTA1 PTA2 PTA3 ADC0_SE2 ADC0_SE3 VDDA VREFH VREF_OUT VREFL VSSA Figure 22. 44-pin Laminate QFN MCF51JF128 Data Sheet, Rev. 6, 01/2012. EXTAL1 33 VSS 32 VDD 31 EXTAL2 30 XTAL2 29 BKGD/MS 28 ADC0_SE22 27 ADC0_SE18/TSI0_CH14 26 ADC0_SE17/TSI0_CH13 25 TSI0_CH10 24 IRQ/EZP_MS_b 23 Freescale Semiconductor, Inc. ...
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... VSSA 8.3 Module-by-module signals • On PTB0, EZP_MS_b is active only during reset. Refer to the detailed boot description. • PTC1 is open drain. Table 38. Module signals by GPIO port and pin 64-pin 48-pin Freescale Semiconductor, Inc Figure 23. 32-pin QFN NOTE ...
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... PTB7 EXTAL1 PTB6 EXTAL2 PTC0 XTAL1 PTB5 XTAL2 PTC7 LLWU_P0 PTD1 LLWU_P1 PTA5 LLWU_P2 PTA7 LLWU_P3 PTD7 LLWU_P4 PTB0 LLWU_P5 PTB1 LLWU_P6 PTB2 LLWU_P7 PTE7 LLWU_P8 PTB4 LLWU_P9 PTF2 LLWU_P10 PTF3 LLWU_P11 PTC2 LLWU_P12 PTF5 LLWU_P13 PTC3 LLWU_P14 Freescale Semiconductor, Inc. ...
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... Freescale Semiconductor, Inc. 44-pin 32-pin 43 31 RGPIO LPTMR LPTMR-TOD ...
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... PTC0 PTC0 PTC1 PTC1 PTC2 PTC2 PTC3 PTC3 PTC4 PTC4 PTC5 PTC5 PTC6 PTC6 PTC7 PTC7 PTD0 PTD0 PTD1 PTD1 PTD2 PTD2 PTD3 PTD3 PTD4 PTD4 PTD5 PTD5 PTD6 PTD6 PTD7 PTD7 PTE0 PTE0 PTE1 PTE1 PTE3 PTE2 Freescale Semiconductor, Inc. ...
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... Freescale Semiconductor, Inc. 44-pin 32-pin PTF VREG USB0 ADC0 ...
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... VREFL VSSA DAC0_OUT VREF_OUT PTF0 CMP0_IN0 PTF2 CMP0_IN1 PTF3 CMP0_IN2 PTC2 CMP0_IN3 PTF1 CMP0_OUT PTC5 CMT_IRO PTD0 I2S0_MCLK/ I2S0_CLKIN PTC3 I2S0_MCLK/ I2S0_CLKIN PTD1 I2S0_RX_BCLK PTF7 I2S0_RX_BCLK PTA0 I2S0_RX_FS PTF6 I2S0_RX_FS PTA1 I2S0_RXD PTF5 I2S0_RXD PTA3 I2S0_TX_BCLK PTF4 I2S0_TX_BCLK Freescale Semiconductor, Inc. ...
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... Freescale Semiconductor, Inc. 44-pin 32-pin TSI0 PDB0 FTM0 Table continues on the next page ...
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... PTB1 FB_CLKOUT PTD3 FBa_AD0 PTE4 FBa_AD1 PTE5 FBa_AD2 PTE6 FBa_AD3 PTE7 FBa_AD4 PTF0 FBa_AD5 PTF1 FBa_AD6 PTF2 FBa_AD7 PTF3 FBa_AD8 PTF6 FBa_AD9 PTF7 FBa_AD10 PTC6 FBa_AD11 PTC7 FBa_AD12 PTD0 FBa_AD13 PTD1 FBa_AD14 PTA0 FBa_AD15 PTA1 FBa_AD16 PTA6 FBa_AD17 Freescale Semiconductor, Inc. ...
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... Freescale Semiconductor, Inc. 44-pin 32-pin DATA_BUS I2C0 and I2C1 Table continues on the next page ...
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... PTE3 SPI0_MOSI PTB3 SPI0_MOSI PTF3 SPI0_MOSI PTC5 SPI0_MOSI PTB1 SPI0_SCLK PTF1 SPI0_SCLK PTC3 SPI0_SCLK PTA0 SPI0_SS PTE1 SPI0_SS PTF0 SPI0_SS PTF7 SPI0_SS PTC7 SPI1_MISO PTA4 SPI1_MISO PTE6 SPI1_MISO PTF5 SPI1_MISO PTC6 SPI1_MOSI PTA5 SPI1_MOSI PTE7 SPI1_MOSI PTF6 SPI1_MOSI Freescale Semiconductor, Inc. ...
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... Freescale Semiconductor, Inc. 44-pin 32-pin UART0 UART1 MCF51JF128 Data Sheet, Rev. 6, 01/2012. ...
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... Revision History The following table summarizes content changes since the previous release of this document. Rev. No. Date Substantial Changes 6 01/2012 Thermal operating requirements: Changed maximum T 72 Table 39. Revision History MCF51JF128 Data Sheet, Rev. 6, 01/2012. value from 125°C to 115°C J Freescale Semiconductor, Inc. ...
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... 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 ...