MCIMX6S7CVM08AB Freescale Semiconductor, MCIMX6S7CVM08AB Datasheet

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... The i.MX 6SoloLite processor is specifically useful for applications, such as: • Color and monochrome eReaders • Entry level tablets • Barcode scanners © 2012 Freescale Semiconductor, Inc. All rights reserved. Document Number: IMX6SLCEC Rev. 1, 11/2012 MCIMX6L Package Information Plastic Package mm, 0.5 mm pitch Ordering Information ...

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... This significantly simplifies system power management structure. • GPIO with interrupt capabilities—The new GPIO pad design supports configurable dual voltage rails at 1.8V and 3.3V supplies. The pad is configurable to interface at either voltage level. i.MX 6SoloLite Applications Processors for Consumer Products, Rev and I S Freescale Semiconductor ...

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... Ensure that you have the right datasheet for your specific part by checking the Temperature Grade (Junction) field and matching it to the right datasheet. If you have questions, see freescale.com/imx6series or contact your Freescale representative. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor 1, or you have questions about available parts, see Table 1. Orderable Part Numbers Speed ...

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... Applications Processors for Consumer Products, Rev IMX6 Temperature Tj + Consumer 95C D Extended Cons: - 105C Silicon Rev Rev 1.0 Fusing % Supports E-INK EPDC if EPD enabled Supports Sipix EPDC if EPDC enabled Frequency $$ 1 GHz 10 Package Type ROHS MAPBGA 13x13 0.5mm VN Freescale Semiconductor ...

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... Each i.MX 6SoloLite processor enables the following interfaces to external devices (some of them are muxed and not available simultaneously): • Displays—Total three interfaces are available. — LCD, 24bit display port 225 Mpixels/sec (for example, WUXGA at 60 Hz) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Introduction Table 9, "Operating Ranges," on page 5 ...

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... Support DVFS techniques for low power modes • Use Software State Retention and Power Gating for ARM and MPE • Support various levels of system power modes • Use flexible clock gating control scheme i.MX 6SoloLite Applications Processors for Consumer Products, Rev Freescale Semiconductor ...

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... The actual feature set depends on the part numbers as described in "Orderable Part Numbers," on page graphics acceleration, E-Ink or SiPix may not be enabled for specific part numbers. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor NOTE 3. Functions, such as 2D hardware Introduction Table 1, ...

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... Block Diagram Figure 2 shows the functional modules in the i.MX 6SoloLite processor system. Figure 2. i.MX 6SoloLite System Block Diagram The numbers in brackets indicate number of module instances. For example, PWM (4) indicates four separate PWM peripherals. i.MX 6SoloLite Applications Processors for Consumer Products, Rev NOTE Freescale Semiconductor ...

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... DCP Data Security co-processor i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 2. i.MX 6SoloLite Modules List Electrical Fuse Array. Enables to setup Boot Modes, Security Levels, Security Keys, and many other system parameters. The i.MX 6SoloLite processor consists of 2-128x8-bit fuse box accessible through OCOTP_CTRL interface ...

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... OpenVG graphics accelerator provides OpenVG 1.1 support as well as other accelerations, including Real-time hardware curve tesselation of lines, quadratic and cubic Bezier curves, 16x Line Anti-aliasing, and various Vector Drawing functions provide serial interface for external devices. Data rates 400 kbps are supported. Brief Description Freescale Semiconductor ™ EPD ...

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... Peripherals PWM-3 PWM-4 i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Brief Description This module enables flexible IO multiplexing. Each IO pad has default and several alternate functions. The alternate functions are software configurable. KPP Supports external key pad matrix. KPP features are: • ...

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... The i.MX 6SoloLite SJC incorporates three security modes for protecting against unauthorized accesses. Modes are selected through eFUSE configuration. Secure Non-Volatile Storage, including Secure Real Time Clock, Security State Machine, Master Key Control, and Violation/Tamper Detection and reporting. Brief Description Freescale Semiconductor ...

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... Speed OTG and Peripherals 1x HS Hosts i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Brief Description The SPDC is a feature-rich, low power, and high-performance direct-drive, active matrix EPD controller specifically designed to drive SiPix™ EPD panels, supporting a wide variety of TFT backplanes. ...

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... TZ mode still not served, the TZ WDOG asserts a security violation signal to the CSU. The TZ WDOG module cannot be programmed or deactivated by a normal mode Software. The XTALOSC module enables connectivity to external crystal oscillator device typical application use-case used for 24 MHz oscillator. Brief Description Freescale Semiconductor ...

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... JTAG interface for common Software debug adding all the system TAPs to the chain. NC These signals are No Connect (NC) and should be floated by the user. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Section 6, “Package Information and Contact Table 3. Special Signal Considerations Remarks Table 4 ...

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... GND. JTAG JTAG_TCK JTAG_TMS JTAG_TDI JTAG_TDO i.MX 6SoloLite Applications Processors for Consumer Products, Rev Remarks Table 4. JTAG Controller Interface Summary I/O Type Input Input Input 3-state output On-Chip Termination 47 kΩ pull-up 47 kΩ pull-up 47 kΩ pull-up Keeper Freescale Semiconductor ...

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... BGA Case 2240 Package Thermal Resistance Operating Ranges External Clock Sources Maximal Supply Currents Low Power Mode Supply Currents USB PHY Current Consumption i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor I/O Type Input Input Pad Name on page 18 on page 18 on page 21 ...

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... Vesd_CDM T STORAGE Table 8. Package Thermal Resistance Data Board Single layer board (1s) Four layer board (2s2p) 1 Min Max Unit -0.3 1.5 V -0.3 1.3 V -0.5 3.6 V -0.4 1.975 V -0.3 3.6 V — 5.25 V -0.3 3. -0.5 OVDD +0.3 V — 2000 V — 500 V o -40 150 C Symbol No Lid Unit R 51 °C/W θ °C/W θJA Freescale Semiconductor ...

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... Thermal characterization parameter indicating the temperature difference between package top and the junction temperature per JEDEC JESD51-2. When Greek letters are not available, the thermal characterization parameter is written as Psi-JT. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Board Symbol Single layer board (1s) R θ ...

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... Electrical Characteristics 4.1.3 Operating Ranges Figure 3 shows major power systems blocks and internal/external connections for the i.MX 6Sololite proessor. Figure 3. i.MX 6SoloLite SoC Power Block Diagram i.MX 6SoloLite Applications Processors for Consumer Products, Rev Freescale Semiconductor ...

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... Standby/DSM Mode VDD_ARM_IN VDD_SOC_IN VDD_PU_IN VDDHIGH internal VDD_HIGH_IN Regulator Backup battery VDD_SNVS_IN supply range USB supply voltages USB_OTG1_VBUS USB_OTG2_VBUS DDR I/O supply NVCC_DRAM NVCC_DRAM_2P5 i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 9. Operating Ranges 1 Min Typ Max Unit 2 1.375 1.5 2 1.275 1.5 2 1.075 1 ...

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... Max Unit 2.8 3.0 3.3 V 1.62 1.8 1.98 1 -40 105 Table 10. External Input Clock Frequency Symbol Min f — 32.768 ckil f xtal Comment Worst case, assuming all SOC I/O operating at 1.8V. NVCC33_IO must always be greater than NVCC18_IO. V °C Consumer Extended Consumer Typ Max 3 /32.0 — 24 Freescale Semiconductor Unit kHz MHz ...

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... VDD_ARM_IN VDD_SOC_IN VDD_PU_IN VDD_HIGH_IN VDD_SNVS_IN i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor are required for use with Freescale BSPs to ensure precise time Table 11 represent a use case designed specifically to show the Table 11. Maximal Supply Currents Conditions 1 GHz ARM clock based on Power ...

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... Applications Processors for Consumer Products, Rev Conditions — Primary Interface (IO) Supplies — N=156 N=156 MISC — Test Conditions VDD_ARM_IN (1.375 V) VDD_SOC_IN (1.375 V) Max Current — 5 Use maximal IO Equation 5 Use maximal IO Equation 1 1 Supply Typical 4 7.5 VDD_PU_IN (1.375 V) 1.5 VDD_HIGH_IN(3 Total 44.9 Freescale Semiconductor Unit mA mA Unit mA mW ...

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... XTAL and bandgap are disabled 1 The typical values shown here are for information only and are not guaranteed. These values are average values measured on a worst-case wafer at 25°C. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Electrical Characteristics VDD_ARM_IN (1.375 V) 2.5 VDD_SOC_IN (1.375 V) 7 ...

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... POR_B input, the internal POR module takes control. See the i.MX 6SoloLite reference manual for further details and to ensure that all necessary requirements are being met. i.MX 6SoloLite Applications Processors for Consumer Products, Rev VDDHIGH_CAP (2.5 V) 5.1 μA 1.7 μA NOTE NOTE NVCC_PLL_OUT (1.1 V) <0.5 μA Freescale Semiconductor ...

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... OFF. This can cause internal latch-up and malfunctions due to reverse current flows. For information about I/O power supply of each pin, see “Power Group” column of mm Functional Contact Assignments," on page i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor NOTE Table 14. Power-Down Sequencing Order Internal LDOs ...

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... Current-limiting can be enabled to allow for in-rush current requirements during start-up, if needed. Active-pull-down can also be enabled for systems requiring this feature. For additional information, see the i.MX 6SoloLite reference manual. i.MX 6SoloLite Applications Processors for Consumer Products, Rev NOTE Freescale Semiconductor ...

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... For additional information, see the i.MX 6SoloLite reference manual. 4.4 PLL’s Electrical Characteristics 4.4.1 Audio/Video PLL’s Electrical Parameters Table 15. Audio/Video PLL’s Electrical Parameters Parameter Clock output range i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Electrical Characteristics Ω . Value 650 MHz ~1.3 GHz 29 ...

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... Value 528 MHz PLL output 24 MHz μ <11250 reference cycles (15 s) Value 500 MHz 24 MHz μ <11250 reference cycles (450 s) Value 480 MHz PLL output 24 MHz μ <383 reference cycles (15 s) Value 650 MHz~1.3 GHz Freescale Semiconductor ...

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... Maximum Charge Current is 0.6 mA For a charge voltage of 3 (3.2-2.5)/0 1.17 k Always refer to the chosen coin cell manufacturer's data sheet for the latest information. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Value 24 MHz <2250 reference cycles (50 NOTE Electrical Characteristics μ ...

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... PCB on either side of the quartz. A higher Cload will decrease oscillation margin, but increases current oscillating through the crystal. 50 kΩ Equivalent series resistance of the crystal. Choosing a crystal with a higher value will decrease the oscillating margin. NOTE Comments Freescale Semiconductor ...

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... Input current (47 kΩ pull-up) Input current (100 kΩ pull-up) Input current (100 kΩ pull-down) Keeper circuit resistance Rkeep i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 21. DVGPIO I/O DC Parameters Test Conditions 2 Ioh = -0.1 mA (DSE = 001, 010) Ioh = -1 mA (DSE = 011, 100, 101, 110, 111) 2 Iol = 0 ...

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... Max OVDD – 0.15 — — 0.15 × 0.7 OVDD OVDD × 0 0.3 OVDD 0.25 — × 0.5 OVDD — × — 0.5 OVDD -1.25 1.25 — 212 1 — 100 1 — — 105 205 Freescale Semiconductor Unit mA mA Unit μA μA μA μA μA kΩ ...

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... The single-ended signals need to be within the respective limits (Vih(dc) max, Vil(dc) min) for single-ended signals as well as the limitations for overshoot and undershoot (see i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Test Conditions — — are guaranteed per the operating ranges in ...

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... Rkeep — Table 28). Table 9, unless otherwise noted. Min Max Unit 1 0.8*OVDD — — 0.2*OVDD 0.49*OVDD 0.51*OVDD Vref+0.1 OVDD OVSS Vref-0.1 3 0.2 See Note 3 See Note -0.2 0.49*OVDD 0.51*OVDD μA -2.9 2.9 % -10 10 — 10 105 175 kΩ Figure 5 and Freescale Semiconductor Ω ...

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... Output (at pad) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor From Output Test Point Under Test CL CL includes package, probe and fixture capacitance Figure 5. Load Circuit for Output 80% 20% tr Figure 6. Output Transition Time Waveform Electrical Characteristics OVDD 80% 20 ...

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... Cload, fast slew rate trm — Table 25 and Table 26, Min Typ Max Unit 2.72/2.79 — — 1.51/1.54 3.20/3.36 — — 1.96/2.07 ns 3.64/3.88 — — 2.27/2.53 4.32/4.50 — — 3.16/3.17 — — Min Typ Max Unit 1.70/1.79 — — 1.06/1.15 2.35/2.43 — — 1.74/1.77 ns 3.13/3.29 — — 2.46/2.60 5.14/5.57 — — 4.77/5.15 — — Freescale Semiconductor ...

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... AC input logic high AC input logic low 2 AC differential input voltage Input AC differential cross point voltage Over/undershoot peak Over/undershoot area (above OVDD or below OVSS) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Symbol Test Condition Vih(ac) — Vil(ac) — Vidh(ac) — ...

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... OVDD. Output driver impedance is calculated from this voltage divider (see i.MX 6SoloLite Applications Processors for Consumer Products, Rev (continued) Symbol Test Condition Min tsr Driver impedance = 2.5 34 Ω t clk = 400 MHz — SKD NOTE Figure Typ Max Unit — 5 V/ns — 0.1 ns 7). Freescale Semiconductor ...

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... OVDD Vref1 Vref 0 Vovdd – Vref1 Rpu = Rpd = Vovdd – Vref2 Figure 7. Impedance Matching Load for Measurement i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor OVDD PMOS (Rpu) Ztl Ω inches pad NMOS (Rpd) OVSS Vref2 × Ztl Vref1 Vref2 × ...

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... Typ Value 001 010 011 100 101 110 111 Drive Strength (ipp_dse) Typ Value 001 010 011 100 101 110 111 Unit 260 130 90 Ω Unit 150 75 50 Ω Unit 150 75 50 Ω Freescale Semiconductor ...

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... This section contains the timing and electrical parameters for the modules in each i.MX 6SoloLite processor. 4.9.1 Reset Timings Parameters Figure 8 shows the reset timing and POR_B (Input) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 32. DDR I/O Output Buffer Impedance Test Conditions NVCC_DRAM=1.5 V (DDR3) DDR_SEL=11 Table 33 lists the timing parameters. CC1 Figure 8 ...

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... Applications Processors for Consumer Products, Rev Table 33. Reset Timing Parameters Parameter Table 34 lists the timing parameters. CC3 Figure 9. WDOG_B Timing Diagram Table 34. WDOG_B Timing Parameters Min 1 NOTE NOTE Min Max Unit 1 — XTALI cycle Max Unit — XTALI cycle Freescale Semiconductor ...

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... For more information on configuration ports mentioned in this table, see the i.MX 6SololLite reference manual. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 35. EIM Signal Cross Reference Data Sheet Nomenclature, Reference Manual External Signals and Pin Multiplexing Chapter, and IOMUXC Controller Chapter Nomenclature ...

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... WE4 WE6 WE8 WE10 WE12 WE14 WE16 Figure 10. EIM Output Timing Diagram WE18 WE19 WE20 WE21 Figure 11. EIM Input Timing Diagram Table 37. EIM Bus Timing Parameters 1 Min t*(k+1) 0.4*t*(k+1) WE3 WE5 WE7 WE9 WE11 WE13 WE15 WE17 1 Max Unit — ns — ns Freescale Semiconductor ...

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... Input data hold time from clock rise WE20 WAIT_B setup time to clock rise WE21 WAIT_B hold time from clock rise 1 k represents BCD value 2 EIM maximum operating frequency is 93 MHz (t = 10.753 ns) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor 0.4*t*(k+1) — — -0.5*t*(k+1)/2+2.25 0.5*t*(k+1)/2-1.25 — — -0.5*t*(k+1)/2+2.25 0.5*t*(k+1)/2-1.25 — ...

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... Figure 13. Synchronous Memory, Write Access, WSC=1, WBEA=0 and WADVN=0 i.MX 6SoloLite Applications Processors for Consumer Products, Rev WE4 Address v1 WE6 WE14 WE15 WE10 WE12 WE18 D(v1) WE5 WE4 Address V1 WE6 WE7 WE8 WE9 WE14 WE15 WE13 WE12 WE16 D(V1) WE5 WE7 WE11 WE13 WE19 WE17 Freescale Semiconductor ...

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... ADDR/ Last Valid M_DATA CSx_B WE_B WE14 ADV_B OE_B BEy_B Figure 15. 16-Bit Muxed A/D Mode, Synchronous Read Access, WSC=7, RADVN=1, ADH=1, OEA=0 i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor WE16 WE5 WE4 Address V1 Address WE6 WE8 WE14 WE15 WE10 ADH=1 ...

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... Figure 16. Asynchronous Memory Read Access (RWSC = 5) i.MX 6SoloLite Applications Processors for Consumer Products, Rev Table 38 help you determine timing parameters relative to the chip start of access WE31 Address V1 WE39 WE35 WE37 D(V1) WE43 MAXDI Figure 16 through end of access WE32 Next Address WE40 WE36 WE38 WE44 Freescale Semiconductor ...

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... Figure 17. Asynchronous A/D Muxed Read Access (RWSC = 5) CSx_B ADDR Last Valid Address WE_B ADV_B OE_B BEy_B DATA Figure 18. Asynchronous Memory Write Access i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor start of access MAXDI WE31 Addr. V1 WE32A WE40A WE39 WE35A WE37 WE31 ...

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... Applications Processors for Consumer Products, Rev WE41A WE31 Addr. V1 WE32A WE33 WE40A WE39 WE45 WE31 Address V1 WE39 WE35 WE37 D(V1) WE43 WE47 Figure 20. DTACK Read Access (DAP=0) D(V1) WE42 WE34 WE46 WE42 WE32 Next Address WE40 WE36 WE38 WE44 WE48 Freescale Semiconductor ...

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... WE38 BEy_B Invalid to CSx_B Invalid (Read access) WE39 CSx_B Valid to ADV_B Valid WE40 ADV_B Invalid to CSx_B Invalid (ADVL is asserted) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor WE31 Address V1 WE33 WE39 WE45 D(V1) WE41 WE47 Figure 21. DTACK Write Access (DAP=0) ...

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... Max Unit 3 + (ADVN + ADVA + 1 - CSA) — WCSA — (WADVN + WADVA + ADH + 1 - WCSA) — CSN — — — — — — — 0 — — (WBEA - CSA) — (WBEN - CSN) — — — 0 — Freescale Semiconductor ...

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... CK clock high-level width DDR2 CK clock low-level width DDR4 CS, RAS, CAS, CKE, WE, ODT setup time DDR5 CS, RAS, CAS, CKE, WE, ODT hold time i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor DDR4 DDR5 DDR4 DDR5 DDR4 DDR7 COL/BA Table 39. DDR3 Timing Parameter Table ...

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... Table 40. DDR3 Write Cycle Parameter CK = 400 MHz Unit Min Max 800 — ps 580 — ps DDR18 Data Data Data Data DDR18 CK = 400MHz Symbol Unit Min Max t 420 — 345 — -0.25 +0.25 tCK DQSS t 0.45 0.55 tCK DQSH t 0.45 0.55 tCK DQSL Freescale Semiconductor ps ps ...

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... To receive the reported setup and hold values, read calibration should be performed in order to locate the DQS in the middle of DQ window. 2 All measurements are in reference to Vref level. 3 Measurements were done using balanced load and 25 Ω resistor from outputs to VDD_REF. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor DATA DATA DATA DATA DDR26 Figure 24. DDR3 Read Cycle Table 41 ...

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... Applications Processors for Consumer Products, Rev LP4 LP3 LP3 LP4 LP4 Table 42. LPDDR2 Timing Parameter Symbol LP1 LP2 LP3 CK = 400 MHz Unit Min Max 0.45 0. 0.45 0. 380 — ps 380 — ps 770 — ps 770 — ps Freescale Semiconductor ...

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... To receive the reported setup and hold values, write calibration should be performed in order to locate the DQS in the middle of DQ window. 2 All measurements are in reference to Vref level. 3 Measurements were done using balanced load and 25 Ω resistor from outputs to VDD_REF. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor LP22 LP23 LP18 LP17 Data Data ...

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... Applications Processors for Consumer Products, Rev DATA DATA DATA DATA LP26 Figure 27. LPDDR2 Read Cycle Table 44. LPDDR2 Read Cycle Parameter DATA DATA DATA DATA CK = 400 MHz Symbol Unit Min Max — 270 — Freescale Semiconductor ps ...

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... Figure 28. CSI Gated Clock Mode—Sensor Data at Falling Edge, Latch Data at Rising Edge VSYNC HSYNC PIXCLK DATA[15:0] Figure 29. CSI Gated Clock Mode—Sensor Data at Rising Edge, Latch Data at Falling Edge i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor ...

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... Min. Max. Units 67.5 — 2 — 2.5 — 1.2 — 10 — 10 — ± — 66 10% MHz describes the timing parameters P6 P5 Min. Max. Units 67.5 — 2.5 — 1.2 — 10 — 10 — ± — 66 10% MHz Freescale Semiconductor ...

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... Fast group SCLK Cycle Time–Write CS2 SCLK High or Low Time–Read 1 • Slow group 2 • Fast group SCLK High or Low Time–Write i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 47 CS2 CS3 CS2 Symbol t clk t SW Electrical Characteristics ...

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... Applications Processors for Consumer Products, Rev Symbol t RISE/FALL t Half SCLK period CSLH t Half SCLK period SCS t Half SCLK period HCS = 20 pF) t LOAD PDmosi t Smiso t Hmiso t SDRY Min Max Unit — — ns — ns — — 8.5 — — — ns Freescale Semiconductor ...

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... SSx pulse width CS5 SSx Lead Time (CS setup time) CS6 SSx Lag Time (CS hold time) CS7 MOSI Setup Time CS8 MOSI Hold Time CS9 MISO Propagation Delay (C i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 48 CS2 CS2 Symbol t clk CSLH t ...

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... DAT7 SD7 SD8 CMD DAT0 DAT1 ...... DAT7 Figure 33. SD/eMMC4.3 Timing Symbols Card Input Clock AC SD1 Min Max 400 25/ 20/ 100 400 — — –6.6 3.6 OD Freescale Semiconductor Unit kHz MHz MHz kHz ...

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... Clock Frequency (SD3.0 DDR) uSDHC Output / Card Inputs CMD, DAT (Reference to CLK) SD2 uSDHC Output Delay uSDHC Input / Card Outputs CMD, DAT (Reference to CLK) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor – 50 MHz. – 52 MHz. Table 50 lists the eMMC4.4 timing characteristics. Be aware ...

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... SDR50/SDR104 timing Figure 35. SDR50/SDR104 Timing Symbols Card Input Clock t CLK ISU t IH Min Max Unit 2.6 — ns 1.5 — ns Min Max Unit 4.8 — ns 0.3*t 0.7*t ns CLK CLK 0.3*t 0.7*t ns CLK CLK – –1 2.5 — ns 1.5 — ns Freescale Semiconductor ...

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... FEC_RX_CLK pulse width high M4 FEC_RX_CLK pulse width low 1 FEC_RX_DV, FEC_RX_CLK, and FEC_RXD0 have same timing in 10 Mbps 7-wire interface mode. 2 Test conditions: 25pF on each output signal. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Symbols t ODW min is -1.1 and t max is 1 ...

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... Test conditions: 25pF on each output signal. i.MX 6SoloLite Applications Processors for Consumer Products, Rev Figure 37 Table 53. Table 53. MII Transmit Signal Timing 1 2 Characteristic M4 shows MII transmit signal timing Min Max Unit 5 — ns — 35% 65% FEC_TX_CLK period 35% 65% FEC_TX_CLK period Freescale Semiconductor ...

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... M10 FEC_MDC falling edge to FEC_MDIO output invalid (minimum propagation delay) M11 FEC_MDC falling edge to FEC_MDIO output valid (max propagation delay) M12 FEC_MDIO (input) to FEC_MDC rising edge setup i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 54. MII Async Inputs Signal Timing ...

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... Applications Processors for Consumer Products, Rev Characteristics M14 M12 M13 Table 56 and Figure 40. Table 56. RMII Signal Timing 1 Characteristics Min Max Unit 0 — 60% FEC_MDC period % 40 60% FEC_MDC period % M15 M10 M11 Min Max Unit 35% 65% REF_CLK period 35% 65% REF_CLK period 2 — ns — Freescale Semiconductor ...

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... This section describes the timing parameters of the I module, and Table 57 lists the I I2DAT IC2 IC8 I2CLK IC10 START IC6 i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 56. RMII Signal Timing (continued) 1 Characteristics M16 M18 M19 M20 M21 2 C module module timing characteristics ...

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... Freescale Semiconductor Unit Max µ — s µ — s µ — µ 0.9 s µ — s µ — s µ — s — ns µ — s 300 ns 300 ns 400 ...

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... SJC test clock input timing. Figure 45 depicts the SJC test access port. Signal parameters are listed in TCK (Input) SJ3 i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 58 lists the PWM timing parameters Figure 42. PWM Timing Table 58. PWM Output Timing Parameters ...

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... Figure 45. Test Access Port Timing Diagram i.MX 6SoloLite Applications Processors for Consumer Products, Rev SJ4 Input Data Valid SJ6 Output Data Valid SJ7 SJ6 Output Data Valid SJ8 Input Data Valid SJ10 Output Data Valid SJ11 SJ10 Output Data Valid VIH SJ5 VIH SJ9 Freescale Semiconductor ...

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... Interconnect Format (SPDIF), including the timing of the modulating Rx clock (SRCK) for SPDIF in Rx mode and the timing of the modulating Tx clock (STCLK) for SPDIF in Tx mode. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor SJ13 Figure 46. TRST Timing Diagram Table 59. JTAG Timing ...

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... Figure 47. SRCK Timing Diagram stclkp stclkpl stclkph Figure 48. STCLK Timing Diagram Timing Parameter Range Unit Min Max — 0.7 ns — 1.5 ns — 24.2 — 31.3 — 1.5 ns — 13.6 — 18.0 40.0 — ns 16.0 — ns 16.0 — ns 40.0 — ns 16.0 — ns 16.0 — Freescale Semiconductor ...

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... For example, a channel clock referenced in the IOMUXC chapter as AUD3_TXC appears in the timing diagram as TXC. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 61. Table 61. AUDMUX Port Allocation Type and Access ...

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... SS1 SS5 SS4 SS8 SS10 SS14 SS16 SS17 SS43 SS42 Parameter Internal Clock Operation lists the timing parameters for SS3 SS12 SS15 SS18 SS19 Min Max Unit 81.4 — ns 36.0 — ns 36.0 — ns — 15.0 ns — 15.0 ns — 15.0 ns — 15.0 ns — 6.0 ns — 6.0 ns — 15.0 ns — 15.0 ns — 15.0 ns Freescale Semiconductor ...

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... Transmit and Receive sections of the SSI. • For internal Frame Sync operation using external clock, the FS timing is same as that of Tx Data (for example, during AC97 mode of operation). i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Parameter Synchronous Internal Clock Operation NOTE Electrical Characteristics ...

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... SS5 SS4 SS9 SS11 SS20 SS51 SS47 SS50 Parameter Internal Clock Operation Oversampling Clock Operation lists the timing parameters for the SS3 SS13 SS21 SS49 Min Max Unit 81.4 — ns 36.0 — ns — 6.0 ns 36.0 — ns — 6.0 ns — 15.0 ns — 15.0 ns — 15.0 ns — 15.0 ns 10.0 — ns 0.0 — ns Freescale Semiconductor ...

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... The terms, WL and BL, refer to Word Length (WL) and Bit Length (BL). • For internal Frame Sync operation using external clock, the FS timing is same as that of Tx Data (for example, during AC97 mode of operation). i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Parameter NOTE Electrical Characteristics Min Max Unit 15 ...

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... Applications Processors for Consumer Products, Rev Table 64 SS22 SS25 SS26 SS27 SS29 SS31 SS37 SS44 Parameter External Clock Operation lists the timing parameters for SS24 SS33 SS39 SS38 SS45 SS46 Min Max Unit 81.4 — ns 36.0 — ns — 6.0 ns 36.0 — ns — 6.0 ns –10.0 15.0 ns 10.0 — ns –10.0 15.0 ns 10.0 — ns — 15.0 ns — 15.0 ns Freescale Semiconductor ...

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... The terms WL and BL refer to Word Length (WL) and Bit Length (BL). • For internal Frame Sync operation using external clock, the FS timing is same as that of Tx Data (for example, during AC97 mode of operation). i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Parameter Synchronous External Clock Operation NOTE Electrical Characteristics ...

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... SS32 SS35 SS40 Parameter External Clock Operation lists the timing parameters for the SS24 SS34 SS41 SS36 Min Max Unit 81.4 — — ns — 6 — ns — 6.0 ns –10 15 — ns –10 15 — ns — 6.0 ns — 6 — — ns Freescale Semiconductor ...

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... Serial data from DTE to DCE 4.10.11.2 UART RS-232 Serial Mode Timing The following sections describe the electrical information of the UART module in the RS-232 mode. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor NOTE Table 66 shows the UART I/O configuration based on Table 66. UART I/O Configuration vs. Mode ...

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... Next Start STOP Bit 7 Bit 6 Par Bit Bit BIT UA1 UA1 Max 2 1 ref_clk baud_rate ref_clk Table 68 Possible Parity Bit Next Start STOP Bit 7 Bit 6 Par Bit Bit BIT UA2 UA2 Max ) 1/F + 1/(16*F ) baud_rate baud_rate Freescale Semiconductor Unit — lists Unit — ...

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... Receive IR Pulse Duration 1 The UART receiver can tolerate 1/(16*F exceed 3/(16*F ). baud_rate Baud rate frequency. The maximum baud rate the UART can support is ( ipg_perclk frequency)/16. baud_rate i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor UA3 Bit 1 Bit 2 Bit 3 Bit 4 Symbol Min 1 t 1/F – ...

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... Applications Processors for Consumer Products, Rev NOTE Tstrobe Todelay Figure 57. USB HSIC Transmit Waveform Table 71. USB HSIC Transmit Parameters Min Max Unit 4.166 4.167 ns 550 1350 ps 0.7 2 V/ns Tstrobe Thold Tsetup Figure 58. USB HSIC Receive Waveform Todelay Comment Measured at 50% point Averaged from 30% – 70% points Freescale Semiconductor ...

Page 91

... This section describes the USB-OTG PHY and the USB Host port PHY parameters. The USB PHY meets the electrical compliance requirements defined in the Universal Serial Bus Revision 2.0 OTG, USB Host. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 72. USB HSIC Receive Parameters Min Max Unit 4 ...

Page 92

... Time from XDIOL/XDIOR to LD i.MX 6SoloLite Applications Processors for Consumer Products, Rev Figure 59. Source Driver Diagram Table 73. Source Driver Details Conditions Min. T VDD=3.3V WXCL T VDD=3.3V setup T VDD=3.3V hold T VDD=3.3V WLD T VDD=3.3V LD_XDO Max. Unit XDCLK 1 XDCLK Freescale Semiconductor ...

Page 93

... YOE-GN YOE rise/fall to GN rise/fall delay time YDIOU/YDIOD YDIOU/YDIOD delay time (Output) YDIOU/YDIOD “H” pulse width i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Figure 60. Gate Driver Diagram Table 74. Gate Driver Details Symbol Conditions T VDD=3.3V WYCLK T VDD=3.3V SDIO T VDD=3 ...

Page 94

... Data hold time T hold LD pulse width T WLD Time from T LD_XDO XDIOL/XDIOR to LD i.MX 6SoloLite Applications Processors for Consumer Products, Rev Figure 61. Source Driver Diagram Table 75. Source Driver Details Min. Conditions VDD=3.3V 16 VDD=3.3V 5 VDD=3.3V 2 VDD=3.3V 1 VDD=3.3V 1 Max. Units - XDCLK - XDCLK Freescale Semiconductor ...

Page 95

... Fuse Map document and the System Boot chapter of the i.MX 6SoloLite reference manual. Table 76. Fuses and Associated Pins Used for Boot Pin Direction at Reset BOOT_MODE1 BOOT_MODE0 i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor eFuse Name Input Boot Mode Selection Input Boot Mode Selection Boot Mode Configuration ...

Page 96

... Input BOOT_CFG4[7] Details Boot Options, Pin value overrides fuse settings for BT_FUSE_SEL = ‘0’. Signal Configuration as Fuse Override Input at Power Up. These are special I/O lines that control the boot up configuration during product development. In production, the boot configuration can be controlled by fuses. Freescale Semiconductor ...

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... USB_OTG1_PHY USB_OTG1_DP USB_OTG1_DN USB_OTG1_VBUS USB_OTG1_CHD_B USB_OTG1_DP, USB_OTG1_DN, and USB_OTG1_VBUS i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Table 77. Interfaces Allocation During Boot Allocated Pads During Boot Boot Mode Configuration Comment bit Fastboot bit Fastboot bit Fastboot (UHSI not ...

Page 98

... Case 2240 mm, 0.5 mm Pitch Ball Matrix Figure 62 shows the top, bottom, and side views of the 13×13 mm BGA package Figure 62 13, 0.5 mm BGA Package Top, Bottom, and Side Views Table 78 shows the BGA package details i.MX 6SoloLite Applications Processors for Consumer Products, Rev Freescale Semiconductor ...

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... Ball Opening Ball Width Ball Pitch Ball Count Edge Ball Center to Center Body Center to Contact Ball Package Edge Tolerance Mold Flatness Coplanarity Ball Offset (Package) Ball Offset (Ball) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Symbol Minimum A 0. ...

Page 100

... Primary Supply, for the ARM0 and ARM1 Core’ Regulator Secondary Supply for the 2.5 V domain (internal regulator output—requires capacitor if internal regulator is used) Primary Supply for the 2.5 V Regulator Secondary Supply for the VPU and GPU’s (internal regulator output—requires capacitor if internal regulator is used) Freescale Semiconductor ...

Page 101

... H19 NVCC_GPIO AUD_RXC J21 NVCC_GPIO AUD_RXD J20 NVCC_GPIO AUD_RXFS J19 NVCC_GPIO i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Package Information and Contact Assignments Ball(s) Position(s) AD20 AC20 U14 AA18 AD18 AE17 AB13, AB16, AB17 AB20, AB21 Default Ball Type ...

Page 102

... Input Keeper Input Keeper Input Keeper Input Keeper — — — — Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Input PU (100K) Input PU (100K) Input PU (100K) Input PU (100K) Freescale Semiconductor ...

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... Y2 NVCC_DRAM DRAM_D8 E2 NVCC_DRAM DRAM_D9 E1 NVCC_DRAM DRAM_DQM0 V2 NVCC_DRAM DRAM_DQM1 G2 NVCC_DRAM i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Package Information and Contact Assignments Out of Reset Condition Default Ball Type Mode Default Function (Reset Mode) DDR ALT0 mmdc_DRAM_D[12] DDR ALT0 mmdc_DRAM_D[13] DDR ...

Page 104

... Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Output 0 Input Hi-Z — — Output 0 Output 0 Input Hi-Z — — Input Hi-Z — — Input Hi-Z — — Input Hi-Z — — Output 0 Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Freescale Semiconductor ...

Page 105

... EPDC_PWRCTRL1 E11 NVCC_GPIO EPDC_PWRCTRL2 F11 NVCC_GPIO EPDC_PWRCTRL3 G12 NVCC_GPIO EPDC_PWRINT F10 NVCC_GPIO i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Package Information and Contact Assignments Out of Reset Condition Default Ball Type Mode Default Function (Reset Mode) ALT5 ALT5 gpio4_GPIO[12] ALT5 ...

Page 106

... Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input PD (100K) Input PD (100K) Input Keeper Input Keeper Input Keeper Input Keeper Freescale Semiconductor ...

Page 107

... LCD_DAT11 R24 NVCC_LCD LCD_DAT12 P23 NVCC_LCD LCD_DAT13 P24 NVCC_LCD LCD_DAT14 N21 NVCC_LCD i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Package Information and Contact Assignments Out of Reset Condition Default Ball Type Mode Default Function (Reset Mode) GPIO ALT5 sjc_MOD GPIO ...

Page 108

... Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input Keeper Input PU (100K) Output Open Drain with PU (100K) Output 0 Input PU (100K) Input Keeper Input Keeper Input Keeper Freescale Semiconductor ...

Page 109

... SD3_DAT0 AC11 NVCC_SD3 SD3_DAT1 AD11 NVCC_SD3 SD3_DAT2 AC12 NVCC_SD3 SD3_DAT3 AD12 NVCC_SD3 i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Package Information and Contact Assignments Out of Reset Condition Default Ball Type Mode Default Function (Reset Mode) RTC_XTALI RTC_XTALO GPIO ALT5 ...

Page 110

... USB_OTG_CHD_B USB_OTG1_DN USB_OTG1_DP USB_OTG2_DN USB_OTG2_DP GPIO ALT5 gpio3_GPIO[18] ANALOG XTALI ANALOG XTALO ZQPAD ZQPAD 1 Input/Output Value Input Input Input Keeper Input Keeper — — — — — — — — — — Input Keeper — — — — Input Hi-Z Freescale Semiconductor ...

Page 111

... Table 81 mm, 0.5 mm Pitch Ball Map (continued) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Package Information and Contact Assignments 111 ...

Page 112

... Package Information and Contact Assignments Table 81 mm, 0.5 mm Pitch Ball Map (continued) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 112 Freescale Semiconductor ...

Page 113

... Table 81 mm, 0.5 mm Pitch Ball Map (continued) i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 Freescale Semiconductor Package Information and Contact Assignments 113 ...

Page 114

... Corrected title of Rev. 0 10/2012 • Initial public release. i.MX 6SoloLite Applications Processors for Consumer Products, Rev. 1 114 Substantive Change(s) Table 79, “ Supplies Contact Assignment,” on page Table 81, “ mm, 0.5 mm Pitch Ball Map,” on page 97. 18. 100. 110. Freescale Semiconductor ...

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... Freescale and the Freescale logo are trademarks of Freescale Semiconductor, Inc., Reg. U.S. Pat. & Tm. Off. All other product or service names are the property of their respective owners. ARM is the registered trademark of ARM Limited. ARM Cortex is a trademark of ARM Limited. © ...