MK22FN256VLH12

Freescale Semiconductor, Inc. Data Sheet: Technical Data K22P80M120SF5V2 Rev 5, 03/2015 Kinetis K22F Sub-Family Data Sheet MK22FX512AVLK12 MK22FN1M0AVLK12 120 MHz ARM® Cortex®-M4-based Microcontroller with FPU The K22 product family members are optimized for cost-sensitive applications requiring low-power, USB connectivity, processing efficiency with floating point unit. It shares the comprehensive enablement and scalability of the Kinetis family. This product offers: • Up to 1 MB of flash memory with up to 128 KB of SRAM • Small package with high memory density • Run power consumption down to 279 μA/MHz. Static power consumption down to 5.1 μA with full state retention and 5 μs wakeup. Lowest Static mode down to 268 nA • USB LS/FS OTG 2.0 with embedded 3.3 V, 120 mA LDO voltage regulator Performance • Up to 120 MHz ARM Cortex-M4-based core with DSP instructions delivering 1.25 Dhrystone MIPS per MHz Memories and memory interfaces • Up to 1 MB program flash memory and 128 KB RAM • 4 KB FlexRAM and 128 KB FlexNVM on FlexMemory devices • FlexBus external bus interface System peripherals • Multiple low-power modes; low leakage wakeup unit • Memory protection unit with multi-master protection • 16-channel DMA controller • External watchdog monitor and software watchdog Security and integrity modules • Hardware CRC module • 128-bit unique identification (ID) number per chip Analog modules • Two 16-bit SAR ADCs • One 12-bit DAC • Three analog comparators (CMP) • Voltage reference 80 LQFP 12 x 12 x 1.6 mm Pitch 0.5 mm Communication interfaces • USB full-/low-speed On-the-Go controller • USB Device Charger detect • Controller Area Network (CAN) module • Three SPI modules • Three I2C modules • Six UART modules • Secure Digital host controller (SDHC) • I2S module Timers • Two 8-channel Flex-Timers (PWM/Motor Control) • Two 2-channel Flex-Timers (PWM/Quad Decoder) • Periodic interrupt timers and 16-bit low-power timer • Carrier modulator transmitter • Real-time clock • Programmable delay block Clocks • 3 to 32 MHz and 32 kHz crystal oscillator • PLL, FLL, and multiple internal oscillators 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 Freescale reserves the right to change the detail specifications as may be required to permit improvements in the design of its products. © 2013–2014 Freescale Semiconductor, Inc. All rights reserved. Ordering Information 1 Part Number Memory Maximum number of I\O's Flash (KB) SRAM (KB) MK22FX512AVLK12 512 KB 128 52 MK22FN1M0AVLK12 1 MB 128 52 1. To confirm current availability of ordererable part numbers, go to http://www.freescale.com and perform a part number search. Related Resources Type Description Resource Selector Guide The Freescale Solution Advisor is a web-based tool that features interactive application wizards and a dynamic product selector. Solution Advisor Product Brief The Product Brief contains concise overview/summary information to enable quick evaluation of a device for design suitability. K20PB1 Reference Manual The Reference Manual contains a comprehensive description of the structure and function (operation) of a device. K22P80M50SF5V2RM1 Data Sheet The Data Sheet includes electrical characteristics and signal connections. K22P80M50SF5V21 Package drawing Package dimensions are provided in package drawings. • LQFP 80-pin: 98ASS23174W1 1. To find the associated resource, go to http://www.freescale.com and perform a search using this term. 2 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. Kinetis K21/22F Family ARM ® Cortex™-M4 Core Debug interfaces Interrupt controller System DSP Floatingpoint unit Memories and Memory Interfaces Internal and external watchdogs Program flash RAM Phaselocked loop Memory protection FlexMemory External bus Frequencylocked loop DMA Serial programming interface Low/high frequency oscillators Internal reference clocks Low-leakage wakeup Security and Integrity CRC Analog 16-bit ADC x2 Timers Communication Interfaces 2 I C x2 UART x6 Secure Digital I S x1 Analog comparator x3 Carrier modulator transmitter Hardware Encryption 6-bit DAC x3 Programmable delay block SPI x3 USB OTG LS/FS/HS 12-bit DAC Periodic interrupt timers CAN x1 USB LS/FS transceiver Voltage reference Low power timer USB charger detect Independent real-time clock USB voltage regulator LEGEND Human-Machine Interface (HMI) 2 Timers x4 (20ch) Random Number Generator Tamper detect Clocks GPIO Available only in K21 Figure 1. K20 block diagram Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 3 Freescale Semiconductor, Inc. Table of Contents 1 Ratings.................................................................................... 5 1.1 Thermal handling ratings................................................. 5 1.2 Moisture handling ratings................................................ 5 1.3 ESD handling ratings....................................................... 5 1.4 Voltage and current operating ratings............................. 5 2 General................................................................................... 6 2.1 AC electrical characteristics.............................................6 2.2 Nonswitching electrical specifications..............................7 2.2.1 Voltage and current operating requirements.....7 2.2.2 LVD and POR operating requirements............. 8 2.2.3 Voltage and current operating behaviors.......... 8 2.2.4 Power mode transition operating behaviors......10 2.2.5 Power consumption operating behaviors.......... 10 2.2.6 EMC radiated emissions operating behaviors...14 2.2.7 Designing with radiated emissions in mind....... 15 2.2.8 Capacitance attributes...................................... 15 2.3 Switching specifications...................................................15 2.3.1 Device clock specifications............................... 15 2.3.2 General switching specifications....................... 16 2.4 Thermal specifications..................................................... 17 2.4.1 Thermal operating requirements....................... 17 2.4.2 Thermal attributes............................................. 17 3 Peripheral operating requirements and behaviors.................. 19 3.1 Core modules.................................................................. 19 3.1.1 Debug trace timing specifications..................... 19 3.1.2 JTAG electricals................................................ 19 3.2 System modules.............................................................. 22 3.3 Clock modules................................................................. 22 3.3.1 MCG specifications........................................... 22 3.3.2 Oscillator electrical specifications..................... 25 3.3.3 32 kHz oscillator electrical characteristics.........27 3.4 Memories and memory interfaces................................... 27 4 Freescale Semiconductor, Inc. 4 5 6 7 8 3.4.1 Flash (FTFE) electrical specifications............... 27 3.4.2 EzPort switching specifications......................... 32 3.4.3 Flexbus switching specifications....................... 33 3.5 Security and integrity modules........................................ 36 3.6 Analog............................................................................. 36 3.6.1 ADC electrical specifications.............................37 3.6.2 CMP and 6-bit DAC electrical specifications.....41 3.6.3 12-bit DAC electrical characteristics................. 43 3.6.4 Voltage reference electrical specifications........ 46 3.7 Timers..............................................................................47 3.8 Communication interfaces............................................... 47 3.8.1 USB electrical specifications............................. 47 3.8.2 USB DCD electrical specifications.................... 48 3.8.3 USB VREG electrical specifications..................48 3.8.4 CAN switching specifications............................ 49 3.8.5 DSPI switching specifications (limited voltage range)................................................................49 3.8.6 DSPI switching specifications (full voltage range)................................................................51 3.8.7 I2C switching specifications.............................. 52 3.8.8 UART switching specifications.......................... 53 3.8.9 SDHC specifications......................................... 53 3.8.10 I2S switching specifications.............................. 54 Dimensions............................................................................. 66 4.1 Obtaining package dimensions....................................... 66 Pinout...................................................................................... 67 5.1 K22 Signal Multiplexing and Pin Assignments.................67 5.2 K22 Pinouts..................................................................... 71 Revision History...................................................................... 72 Copyright................................................................................. 0 Legal....................................................................................... 0 Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. Ratings 1 Ratings 1.1 Thermal handling ratings Symbol Description Min. Max. Unit Notes TSTG Storage temperature –55 150 °C 1 TSDR Solder temperature, lead-free — 260 °C 2 1. Determined according to JEDEC Standard JESD22-A103, High Temperature Storage Life. 2. Determined according to IPC/JEDEC Standard J-STD-020, Moisture/Reflow Sensitivity Classification for Nonhermetic Solid State Surface Mount Devices. 1.2 Moisture handling ratings Symbol MSL Description Moisture sensitivity level Min. Max. Unit Notes — 3 — 1 1. Determined according to IPC/JEDEC Standard J-STD-020, Moisture/Reflow Sensitivity Classification for Nonhermetic Solid State Surface Mount Devices. 1.3 ESD handling ratings Symbol Description Min. Max. Unit Notes VHBM Electrostatic discharge voltage, human body model -2000 +2000 V 1 VCDM Electrostatic discharge voltage, charged-device model -500 +500 V 2 Latch-up current at ambient temperature of 105°C -100 +100 mA 3 ILAT 1. Determined according to JEDEC Standard JESD22-A114, Electrostatic Discharge (ESD) Sensitivity Testing Human Body Model (HBM). 2. Determined according to JEDEC Standard JESD22-C101, Field-Induced Charged-Device Model Test Method for Electrostatic-Discharge-Withstand Thresholds of Microelectronic Components. 3. Determined according to JEDEC Standard JESD78, IC Latch-Up Test. 1.4 Voltage and current operating ratings Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 5 Freescale Semiconductor, Inc. General Symbol Description Min. Max. Unit VDD Digital supply voltage –0.3 3.8 V IDD Digital supply current — 185 mA VDIO Digital input voltage (except RESET, EXTAL, and XTAL) –0.3 5.5 V VAIO Analog1, –0.3 VDD + 0.3 V ID VDDA RESET, EXTAL, and XTAL input voltage Maximum current single pin limit (applies to all digital pins) Analog supply voltage –25 25 mA VDD – 0.3 VDD + 0.3 V VUSB0_DP USB0_DP input voltage –0.3 3.63 V VUSB0_DM USB0_DM input voltage –0.3 3.63 V RTC battery supply voltage –0.3 3.8 V VBAT 1. Analog pins are defined as pins that do not have an associated general purpose I/O port function. 2 General 2.1 AC electrical characteristics Unless otherwise specified, propagation delays are measured from the 50% to the 50% point, and rise and fall times are measured at the 20% and 80% points, as shown in the following figure. VIH Input Signal High Low 80% 50% 20% Midpoint1 Fall Time VIL Rise Time The midpoint is VIL + (VIH - VIL) / 2 Figure 2. Input signal measurement reference All digital I/O switching characteristics assume: 1. output pins • have CL=30pF loads, • are configured for fast slew rate (PORTx_PCRn[SRE]=0), and • are configured for high drive strength (PORTx_PCRn[DSE]=1) 2. input pins • have their passive filter disabled (PORTx_PCRn[PFE]=0) 6 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. General 2.2 Nonswitching electrical specifications 2.2.1 Voltage and current operating requirements Table 1. Voltage and current operating requirements Symbol Description Min. Max. Unit VDD Supply voltage 1.71 3.6 V VDDA Analog supply voltage 1.71 3.6 V VDD – VDDA VDD-to-VDDA differential voltage –0.1 0.1 V VSS – VSSA VSS-to-VSSA differential voltage –0.1 0.1 V 1.71 3.6 V • 2.7 V ≤ VDD ≤ 3.6 V 0.7 × VDD — V • 1.71 V ≤ VDD ≤ 2.7 V 0.75 × VDD — V • 2.7 V ≤ VDD ≤ 3.6 V — 0.35 × VDD V • 1.71 V ≤ VDD ≤ 2.7 V — 0.3 × VDD V 0.06 × VDD — V -5 — mA VBAT VIH VIL RTC battery supply voltage Input high voltage Input low voltage VHYS Input hysteresis IICDIO Digital pin negative DC injection current — single pin • VIN < VSS-0.3V IICAIO IICcont 1 Analog2, EXTAL, and XTAL pin DC injection current — single pin 3 mA • VIN < VSS-0.3V (Negative current injection) -5 — • VIN > VDD+0.3V (Positive current injection) — +5 -25 — — +25 Contiguous pin DC injection current —regional limit, includes sum of negative injection currents or sum of positive injection currents of 16 contiguous pins • Negative current injection • Positive current injection mA VODPU Open drain pullup voltage level VDD VDD V VRAM VDD voltage required to retain RAM 1.2 — V VPOR_VBAT — V VRFVBAT Notes VBAT voltage required to retain the VBAT register file 4 1. All 5 V tolerant digital I/O pins are internally clamped to VSS through an ESD protection diode. There is no diode connection to VDD. If VIN is less than VDIO_MIN, a current limiting resistor is required. If VIN greater than VDIO_MIN (=VSS-0.3V) is observed, then there is no need to provide current limiting resistors at the pads. The negative DC injection current limiting resistor is calculated as R=(VDIO_MIN-VIN)/|IICDIO|. 2. Analog pins are defined as pins that do not have an associated general purpose I/O port function. Additionally, EXTAL and XTAL are analog pins. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 7 Freescale Semiconductor, Inc. General 3. All analog pins are internally clamped to VSS and VDD through ESD protection diodes. If VIN is less than VAIO_MIN or greater than VAIO_MAX, a current limiting resistor is required. The negative DC injection current limiting resistor is calculated as R=(VAIO_MIN-VIN)/|IICAIO|. The positive injection current limiting resistor is calculated as R=(VIN-VAIO_MAX)/| IICAIO|. Select the larger of these two calculated resistances if the pin is exposed to positive and negative injection currents. 4. Open drain outputs must be pulled to VDD. 2.2.2 LVD and POR operating requirements Table 2. VDD supply LVD and POR operating requirements Symbol Description Min. Typ. Max. Unit VPOR Falling VDD POR detect voltage 0.8 1.1 1.5 V VLVDH Falling low-voltage detect threshold — high range (LVDV=01) 2.48 2.56 2.64 V Low-voltage warning thresholds — high range 1 VLVW1H • Level 1 falling (LVWV=00) 2.62 2.70 2.78 V VLVW2H • Level 2 falling (LVWV=01) 2.72 2.80 2.88 V VLVW3H • Level 3 falling (LVWV=10) 2.82 2.90 2.98 V VLVW4H • Level 4 falling (LVWV=11) 2.92 3.00 3.08 V — 80 — mV 1.54 1.60 1.66 V VHYSH Low-voltage inhibit reset/recover hysteresis — high range VLVDL Falling low-voltage detect threshold — low range (LVDV=00) Low-voltage warning thresholds — low range 1 VLVW1L • Level 1 falling (LVWV=00) 1.74 1.80 1.86 V VLVW2L • Level 2 falling (LVWV=01) 1.84 1.90 1.96 V VLVW3L • Level 3 falling (LVWV=10) 1.94 2.00 2.06 V VLVW4L • Level 4 falling (LVWV=11) 2.04 2.10 2.16 V — 60 — mV VHYSL Low-voltage inhibit reset/recover hysteresis — low range Notes VBG Bandgap voltage reference 0.97 1.00 1.03 V tLPO Internal low power oscillator period — factory trimmed 900 1000 1100 μs 1. Rising threshold is the sum of falling threshold and hysteresis voltage Table 3. VBAT power operating requirements Symbol Description VPOR_VBAT Falling VBAT supply POR detect voltage 8 Freescale Semiconductor, Inc. Min. Typ. Max. Unit 0.8 1.1 1.5 V Notes Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. General 2.2.3 Voltage and current operating behaviors Table 4. Voltage and current operating behaviors Symbol VOH Description Min. Typ Max. Unit • 2.7 V ≤ VDD ≤ 3.6 V, IOH = -8mA VDD – 0.5 — — V • 1.71 V ≤ VDD ≤ 2.7 V, IOH = -3mA VDD – 0.5 — — V • 2.7 V ≤ VDD ≤ 3.6 V, IOH = -2mA VDD – 0.5 — — V • 1.71 V ≤ VDD ≤ 2.7 V, IOH = -0.6mA VDD – 0.5 — — V — — 100 mA Notes Output high voltage — high drive strength Output high voltage — low drive strength IOHT Output high current total for all ports VOL Output low voltage — high drive strength 1 • 2.7 V ≤ VDD ≤ 3.6 V, IOL = 9mA — — 0.5 V • 1.71 V ≤ VDD ≤ 2.7 V, IOL = 3mA — — 0.5 V • 2.7 V ≤ VDD ≤ 3.6 V, IOL = 2mA — — 0.5 V • 1.71 V ≤ VDD ≤ 2.7 V, IOL = 0.6mA — — 0.5 V — — 100 mA Output low voltage — low drive strength IOLT Output low current total for all ports IIND Input leakage current, digital pins • VSS ≤ VIN ≤ VIL • All digital pins 2, — 0.002 0.5 μA • All digital pins except PTD7 — 0.002 0.5 μA • PTD7 — 0.004 1 μA 3 • VIN = VDD IIND 2 • VDD = 3.6 V — 18 26 μA • VDD = 3.0 V — 12 19 μA • VDD = 2.5 V — 8 13 μA • VDD = 1.7 V — 3 6 μA Input leakage current, digital pins • VDD < VIN < 5.5 V — 1 50 μA IOZ Hi-Z (off-state) leakage current (per pin) — — 0.25 μA RPU Internal pullup resistors 20 35 50 kΩ 4 RPD Internal pulldown resistors 20 35 50 kΩ 5 IIND 1. 2. 3. 4. Input leakage current, digital pins • VIL < VIN < VDD Open drain outputs must be pulled to VDD. Measured at VDD=3.6V Internal pull-up/pull-down resistors disabled. Measured at VDD supply voltage = VDD min and Vinput = VSS Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 9 Freescale Semiconductor, Inc. General 5. Measured at VDD supply voltage = VDD min and Vinput = VDD 2.2.4 Power mode transition operating behaviors All specifications except tPOR, and VLLSx→RUN recovery times in the following table assume this clock configuration: • • • • CPU and system clocks = 100 MHz Bus clock = 50 MHz FlexBus clock = 50 MHz Flash clock = 25 MHz Table 5. Power mode transition operating behaviors Symbol tPOR Description After a POR event, amount of time from the point VDD reaches 1.71 V to execution of the first instruction across the operating temperature range of the chip. • VLLS0 → RUN • VLLS1 → RUN • VLLS2 → RUN • VLLS3 → RUN • LLS → RUN • VLPS → RUN • STOP → RUN Min. Max. Unit — 300 μs — 183 μs — 183 μs — 105 μs — 105 μs — 5.0 μs — 4.4 μs — 4.4 μs Notes 2.2.5 Power consumption operating behaviors Table 6. Power consumption operating behaviors Symbol IDDA IDD_RUN Description Analog supply current Min. Typ. Max. Unit Notes — — See note mA 1 Run mode current — all peripheral clocks disabled, code executing from flash 2 — 33.57 36.2 mA — 33.51 36.1 mA Table continues on the next page... 10 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. General Table 6. Power consumption operating behaviors (continued) Symbol Description Min. Typ. Max. Unit Notes • @ 1.8V • @ 3.0V IDD_RUN Run mode current — all peripheral clocks enabled, code executing from flash • @ 1.8V • @ 3.0V • @ 25°C 3, 4 — 46.36 50.1 mA — 46.31 49.9 mA — 57.4 — mA • @ 125°C IDD_WAIT Wait mode high frequency current at 3.0 V — all peripheral clocks disabled — 18.2 — mA 2 IDD_WAIT Wait mode reduced frequency current at 3.0 V — all peripheral clocks disabled — 7.2 — mA 5 IDD_VLPR Very-low-power run mode current at 3.0 V — all peripheral clocks disabled — 1.21 — mA 6 IDD_VLPR Very-low-power run mode current at 3.0 V — all peripheral clocks enabled — 1.88 — mA 7 IDD_VLPW Very-low-power wait mode current at 3.0 V — all peripheral clocks disabled — 0.80 — mA 8 IDD_STOP Stop mode current at 3.0 V • @ –40 to 25°C — 0.528 2.25 mA • @ 70°C — 1.6 8 mA • @ 105°C — 5.2 20 mA • @ –40 to 25°C — 78 700 μA • @ 70°C — 498 2400 μA • @ 105°C — 1300 3600 μA • @ –40 to 25°C — 5.1 15 μA • @ 70°C — 28 80 μA • @ 105°C — 124 300 μA • @ –40 to 25°C — 3.1 7.5 μA • @ 70°C — 14.5 45 μA • @ 105°C — 63.5 195 μA — 2.0 5 μA — 6.9 32 μA IDD_VLPS IDD_LLS Very-low-power stop mode current at 3.0 V Low leakage stop mode current at 3.0 V IDD_VLLS3 Very low-leakage stop mode 3 current at 3.0 V IDD_VLLS2 Very low-leakage stop mode 2 current at 3.0 V • @ –40 to 25°C Table continues on the next page... Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 11 Freescale Semiconductor, Inc. General Table 6. Power consumption operating behaviors (continued) Symbol Description Min. Typ. Max. Unit — 30 112 μA • @ –40 to 25°C — 1.25 2.1 μA • @ 70°C — 6.5 18.5 μA • @ 105°C — 37 108 μA — 0.745 1.65 μA — 6.03 18 μA — 37 108 μA — 0.268 1.25 μA — 3.7 15 μA — 22.9 95 μA — 0.19 0.22 μA — 0.49 0.64 μA — 2.2 3.2 μA • @ 70°C Notes • @ 105°C IDD_VLLS1 Very low-leakage stop mode 1 current at 3.0 V IDD_VLLS0 Very low-leakage stop mode 0 current at 3.0 V with POR detect circuit enabled • @ –40 to 25°C • @ 70°C • @ 105°C IDD_VLLS0 Very low-leakage stop mode 0 current at 3.0 V with POR detect circuit disabled • @ –40 to 25°C • @ 70°C • @ 105°C IDD_VBAT Average current with RTC and 32kHz disabled at 3.0 V • @ –40 to 25°C • @ 70°C • @ 105°C IDD_VBAT Average current when CPU is not accessing RTC registers 9 • @ 1.8V • @ –40 to 25°C • @ 70°C • @ 105°C — 0.68 0.8 μA — 1.2 1.56 μA — 3.6 5.3 μA — 0.81 0.96 μA — 1.45 1.89 μA — 4.3 6.33 μA • @ 3.0V • @ –40 to 25°C • @ 70°C • @ 105°C 1. The analog supply current is the sum of the active or disabled current for each of the analog modules on the device. See each module's specification for its supply current. 2. 120 MHz core and system clock, 60 MHz bus 40 Mhz and FlexBus clock, and 24 MHz flash clock. MCG configured for PEE mode. All peripheral clocks disabled. 3. 120 MHz core and system clock, 60 MHz bus and FlexBus clock, and 24 MHz flash clock. MCG configured for PEE mode. All peripheral clocks enabled. 4. Max values are measured with CPU executing DSP instructions. 12 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. General 5. 25 MHz core and system clock, 25 MHz bus clock, and 12.5 MHz FlexBus and flash clock. MCG configured for FEI mode. 6. 4 MHz core, system, FlexBus, and bus clock and 1 MHz flash clock. MCG configured for BLPE mode. All peripheral clocks disabled. Code executing from flash. 7. 4 MHz core, system, FlexBus, and bus clock and 1 MHz flash clock. MCG configured for BLPE mode. All peripheral clocks enabled but peripherals are not in active operation. Code executing from flash. 8. 4 MHz core, system, FlexBus, and bus clock and 1 MHz flash clock. MCG configured for BLPE mode. All peripheral clocks disabled. 9. Includes 32kHz oscillator current and RTC operation. 2.2.5.1 Diagram: Typical IDD_RUN operating behavior The following data was measured under these conditions: • • • • MCG in PEE mode at greater than 100 MHz frequencies No GPIOs toggled Code execution from flash with cache enabled For the ALLOFF curve, all peripheral clocks are disabled except FTFE Figure 3. Run mode supply current vs. core frequency Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 13 Freescale Semiconductor, Inc. General Figure 4. VLPR mode supply current vs. core frequency 2.2.6 EMC radiated emissions operating behaviors Table 7. EMC radiated emissions operating behaviors Symbol Description Frequency band (MHz) Typ. Unit Notes 1, 2 VRE1 Radiated emissions voltage, band 1 0.15–50 23 dBμV VRE2 Radiated emissions voltage, band 2 50–150 27 dBμV VRE3 Radiated emissions voltage, band 3 150–500 28 dBμV VRE4 Radiated emissions voltage, band 4 500–1000 14 dBμV IEC level 0.15–1000 K — VRE_IEC 2, 3 1. 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. Measurements were made while the microcontroller was running basic application code. 14 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. General The reported emission level is the value of the maximum measured emission, rounded up to the next whole number, from among the measured orientations in each frequency range. 2. VDD = 3.3 V, TA = 25 °C, fOSC = 12 MHz (crystal), fSYS = 96 MHz, fBUS = 48MHz 3. Specified according to Annex D of IEC Standard 61967-2, Measurement of Radiated Emissions—TEM Cell and Wideband TEM Cell Method 2.2.7 Designing with radiated emissions in mind To find application notes that provide guidance on designing your system to minimize interference from radiated emissions: 1. Go to www.freescale.com. 2. Perform a keyword search for “EMC design.” 2.2.8 Capacitance attributes Table 8. Capacitance attributes Symbol Description Min. Max. Unit CIN_A Input capacitance: analog pins — 7 pF CIN_D Input capacitance: digital pins — 7 pF 2.3 Switching specifications 2.3.1 Device clock specifications Table 9. Device clock specifications Symbol Description Min. Max. Unit System and core clock — 120 MHz System and core clock when Full Speed USB in operation 20 — MHz Bus clock — 60 MHz FlexBus clock — 50 MHz fFLASH Flash clock — 25 MHz fLPTMR LPTMR clock — 25 MHz Notes Normal run mode fSYS fSYS_USB fBUS FB_CLK VLPR mode1 fSYS System and core clock — 4 MHz fBUS Bus clock — 4 MHz Table continues on the next page... Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 15 Freescale Semiconductor, Inc. General Table 9. Device clock specifications (continued) Symbol Description Min. Max. Unit FB_CLK FlexBus clock — 4 MHz fFLASH Flash clock — 0.8 MHz fERCLK External reference clock — 16 MHz LPTMR clock — 25 MHz fLPTMR_ERCLK LPTMR external reference clock fLPTMR_pin — 16 MHz fFlexCAN_ERCLK FlexCAN external reference clock — 8 MHz fI2S_MCLK I2S master clock — 12.5 MHz fI2S_BCLK I2S bit clock — 4 MHz Notes 1. The frequency limitations in VLPR mode here override any frequency specification listed in the timing specification for any other module. 2.3.2 General switching specifications These general purpose specifications apply to all pins configured for: • GPIO signaling • Other peripheral module signaling not explicitly stated elsewhere Table 10. General switching specifications Symbol Description Min. Max. Unit Notes GPIO pin interrupt pulse width (digital glitch filter disabled) — Synchronous path 1.5 — Bus clock cycles 1, 2 GPIO pin interrupt pulse width (digital glitch filter disabled, analog filter enabled) — Asynchronous path 100 — ns 3 GPIO pin interrupt pulse width (digital glitch filter disabled, analog filter disabled) — Asynchronous path 16 — ns 3 External reset pulse width (digital glitch filter disabled) 100 — ns 3 2 — Bus clock cycles Mode select (EZP_CS) hold time after reset deassertion Port rise and fall time (high drive strength) 4 • Slew disabled • 1.71 ≤ VDD ≤ 2.7V — 12 ns • 2.7 ≤ VDD ≤ 3.6V — 6 ns • 1.71 ≤ VDD ≤ 2.7V — 36 ns • 2.7 ≤ VDD ≤ 3.6V — 24 ns • Slew enabled Port rise and fall time (low drive strength) 5 • Slew disabled 16 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. General Table 10. General switching specifications Symbol Description Min. Max. Unit • 1.71 ≤ VDD ≤ 2.7V — 12 ns • 2.7 ≤ VDD ≤ 3.6V — 6 ns • 1.71 ≤ VDD ≤ 2.7V — 36 ns • 2.7 ≤ VDD ≤ 3.6V — 24 ns Notes • Slew enabled 1. This is the minimum pulse width that is guaranteed to pass through the pin synchronization circuitry. Shorter pulses may or may not be recognized. In Stop, VLPS, LLS, and VLLSx modes, the synchronizer is bypassed so shorter pulses can be recognized in that case. 2. The greater synchronous and asynchronous timing must be met. 3. This is the minimum pulse width that is guaranteed to be recognized as a pin interrupt request in Stop, VLPS, LLS, and VLLSx modes. 4. 75 pF load 5. 15 pF load 2.4 Thermal specifications 2.4.1 Thermal operating requirements Table 11. Thermal operating requirements Symbol Description Min. Max. Unit TJ Die junction temperature –40 125 °C TA Ambient temperature –40 105 °C 2.4.2 Thermal attributes Board type Symbol Description 80 LQFP Unit Notes Single-layer (1s) RθJA Thermal resistance, junction to ambient (natural convection) 50 59 °C/W 1 Four-layer (2s2p) RθJA Thermal resistance, junction to ambient 35 41 °C/W 1 Table continues on the next page... Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 17 Freescale Semiconductor, Inc. General Board type Symbol Description 80 LQFP Unit Notes (natural convection) Single-layer (1s) RθJMA Thermal resistance, junction to ambient (200 ft./min. air speed) 39 48 °C/W 1 Four-layer (2s2p) RθJMA Thermal resistance, junction to ambient (200 ft./min. air speed) 29 35 °C/W 1 — RθJB Thermal resistance, junction to board 19 23 °C/W 2 — RθJC Thermal 8 resistance, junction to case 11 °C/W 3 — ΨJT Thermal characterizatio n parameter, junction to package top outside center (natural convection) 3 °C/W 4 2 Notes 1. Determined according to JEDEC Standard JESD51-2, Integrated Circuits Thermal Test Method Environmental Conditions—Natural Convection (Still Air), or EIA/ JEDEC Standard JESD51-6, Integrated Circuit Thermal Test Method Environmental Conditions—Forced Convection (Moving Air). 2. Determined according to JEDEC Standard JESD51-8, Integrated Circuit Thermal Test Method Environmental Conditions—Junction-to-Board. 3. Determined according to Method 1012.1 of MIL-STD 883, Test Method Standard, Microcircuits, with the cold plate temperature used for the case temperature. The value includes the thermal resistance of the interface material between the top of the package and the cold plate. 4. Determined according to JEDEC Standard JESD51-2, Integrated Circuits Thermal Test Method Environmental Conditions—Natural Convection (Still Air). 18 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. Peripheral operating requirements and behaviors 3 Peripheral operating requirements and behaviors 3.1 Core modules 3.1.1 Debug trace timing specifications Table 12. Debug trace operating behaviors Symbol Description Min. Max. Unit Tcyc Clock period Frequency dependent (limited to 50 MHz) MHz Twl Low pulse width 2 — ns Twh High pulse width 2 — ns Tr Clock and data rise time — 3 ns Tf Clock and data fall time — 3 ns Ts Data setup 3 — ns Th Data hold 2 — ns TRACECLK Tr Tf Twh Twl Tcyc Figure 5. TRACE_CLKOUT specifications TRACE_CLKOUT Ts Th Ts Th TRACE_D[3:0] Figure 6. Trace data specifications Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 19 Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors 3.1.2 JTAG electricals Table 13. JTAG limited voltage range electricals Symbol J1 Description Min. Max. Unit Operating voltage 2.7 3.6 V TCLK frequency of operation MHz • Boundary Scan 0 10 • JTAG and CJTAG 0 25 • Serial Wire Debug 0 50 1/J1 — ns • Boundary Scan 50 — ns • JTAG and CJTAG 20 — ns • Serial Wire Debug 10 — ns J4 TCLK rise and fall times — 3 ns J5 Boundary scan input data setup time to TCLK rise 20 — ns J6 Boundary scan input data hold time after TCLK rise 2.6 — ns J7 TCLK low to boundary scan output data valid — 25 ns J8 TCLK low to boundary scan output high-Z — 25 ns J9 TMS, TDI input data setup time to TCLK rise 8 — ns J10 TMS, TDI input data hold time after TCLK rise 1 — ns J11 TCLK low to TDO data valid — 17 ns J12 TCLK low to TDO high-Z — 17 ns J13 TRST assert time 100 — ns J14 TRST setup time (negation) to TCLK high 8 — ns Unit J2 TCLK cycle period J3 TCLK clock pulse width Table 14. JTAG full voltage range electricals Symbol J1 Description Min. Max. Operating voltage 1.71 3.6 TCLK frequency of operation V MHz • Boundary Scan 0 10 • JTAG and CJTAG 0 20 • Serial Wire Debug 0 40 1/J1 — ns • Boundary Scan 50 — ns • JTAG and CJTAG 25 — ns • Serial Wire Debug 12.5 — ns J2 TCLK cycle period J3 TCLK clock pulse width Table continues on the next page... 20 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. Peripheral operating requirements and behaviors Table 14. JTAG full voltage range electricals (continued) Symbol Description Min. Max. Unit J4 TCLK rise and fall times — 3 ns J5 Boundary scan input data setup time to TCLK rise 20 — ns J6 Boundary scan input data hold time after TCLK rise 0 — ns J7 TCLK low to boundary scan output data valid — 25 ns J8 TCLK low to boundary scan output high-Z — 25 ns J9 TMS, TDI input data setup time to TCLK rise 8 — ns J10 TMS, TDI input data hold time after TCLK rise 1.4 — ns J11 TCLK low to TDO data valid — 22.1 ns J12 TCLK low to TDO high-Z — 22.1 ns J13 TRST assert time 100 — ns J14 TRST setup time (negation) to TCLK high 8 — ns J2 J3 J3 TCLK (input) J4 J4 Figure 7. Test clock input timing TCLK J5 Data inputs J6 Input data valid J7 Data outputs Output data valid J8 Data outputs J7 Data outputs Output data valid Figure 8. Boundary scan (JTAG) timing Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 21 Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors TCLK J9 TDI/TMS J10 Input data valid J11 TDO Output data valid J12 TDO J11 TDO Output data valid Figure 9. Test Access Port timing TCLK J14 J13 TRST Figure 10. TRST timing 3.2 System modules There are no specifications necessary for the device's system modules. 3.3 Clock modules 22 Freescale Semiconductor, Inc. Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. Peripheral operating requirements and behaviors 3.3.1 MCG specifications Table 15. MCG specifications Symbol Description Min. Typ. Max. Unit fints_ft Internal reference frequency (slow clock) — factory trimmed at nominal VDD and 25 °C — 32.768 — kHz fints_t Internal reference frequency (slow clock) — user trimmed 31.25 — 39.0625 kHz Iints Internal reference (slow clock) current Notes — 20 — µA Δfdco_res_t Resolution of trimmed average DCO output frequency at fixed voltage and temperature — using SCTRIM and SCFTRIM — ± 0.3 ± 0.6 %fdco 1 Δfdco_res_t Resolution of trimmed average DCO output frequency at fixed voltage and temperature — using SCTRIM only — ± 0.2 ± 0.5 %fdco 1 Δfdco_t Total deviation of trimmed average DCO output frequency over voltage and temperature — ± 0.5 ±2 %fdco Δfdco_t Total deviation of trimmed average DCO output frequency over fixed voltage and temperature range of 0–70°C — ± 0.3 ±1 %fdco fintf_ft Internal reference frequency (fast clock) — factory trimmed at nominal VDD and 25°C — 4 — MHz fintf_t Internal reference frequency (fast clock) — user trimmed at nominal VDD and 25 °C 3 — 5 MHz Internal reference (fast clock) current — 25 — µA Iintf floc_low Loss of external clock minimum frequency — RANGE = 00 (3/5) x fints_t — — kHz floc_high Loss of external clock minimum frequency — RANGE = 01, 10, or 11 (16/5) x fints_t — — kHz 31.25 — 39.0625 kHz 20 20.97 25 MHz 40 41.94 50 MHz 60 62.91 75 MHz 80 83.89 100 MHz — 23.99 — MHz — 47.97 — MHz — 71.99 — MHz 1 ,2 1 FLL ffll_ref fdco FLL reference frequency range DCO output frequency range Low range (DRS=00) 3, 4 640 × ffll_ref Mid range (DRS=01) 1280 × ffll_ref Mid-high range (DRS=10) 1920 × ffll_ref High range (DRS=11) 2560 × ffll_ref fdco_t_DMX3 DCO output frequency 2 Low range (DRS=00) 5, 6 732 × ffll_ref Mid range (DRS=01) 1464 × ffll_ref Mid-high range (DRS=10) Table continues on the next page... Kinetis K22F Sub-Family Data Sheet, Rev5, 03/2015. 23 Freescale Semiconductor, Inc. Peripheral operating requirements and behaviors Table 15. MCG specifications (continued) Symbol Description Min. Typ. Max. Unit — 95.98 — MHz — 180 — — 150 — — — 1 ms 48.0 — 120 MHz — 1060 — µA — 600 — µA 2.0 — 4.0 MHz Notes 2197 × ffll_ref High range (DRS=11) 2929 × ffll_ref Jcyc_fll FLL period jitter • fDCO = 48 MHz • fDCO = 98 MHz tfll_acquire FLL target frequency acquisition time ps 7 PLL fvco VCO operating frequency Ipll PLL operating current • PLL @ 96 MHz (fosc_hi_1 = 8 MHz, fpll_ref = 2 MHz, VDIV multiplier = 48) Ipll PLL operating current • PLL @ 48 MHz (fosc_hi_1 = 8 MHz, fpll_ref = 2 MHz, VDIV multiplier = 24) fpll_ref PLL reference frequency range Jcyc_pll PLL period jitter (RMS) Jacc_pll • fvco = 48 MHz — 120 — ps • fvco = 120 MHz — 75 — ps PLL accumulated jitter over 1µs (RMS) 9 • fvco = 48 MHz — 1350 — ps • fvco = 120 MHz — 600 — ps Lock entry frequency tolerance ± 1.49 — ± 2.98 % Dunl Lock exit frequency tolerance ± 4.47 — ± 5.97 % Lock detector detection time 8 9 Dlock tpll_lock 8 — — 10-6 150 × + 1075(1/ fpll_ref) s 10 1. This parameter is measured with the internal reference (slow clock) being used as a reference to the FLL (FEI clock mode). 2. 2 V