KITPF0200EPEVBE Evaluation Board

Transcription

1 Freescale Semiconductor User s Guide Document Number: KTPFHWUG Rev.., /4 KITPFEPEVBE Evaluation Board Featuring the MMPF -Channel Configurable PMIC Contents Figure. KITPFEPEVBE Evaluation Board Kit Contents / Packing List Jump Start Important Notice Introduction Evaluation Board Features MMPFNPAEP Device Features MC958JM6 Device Features Required Equipment Evaluation Board Configuration Evaluation Board Schematic KITPFEPEVBE Board Layout Bill of Materials References Revision History Freescale Semiconductor, Inc., 4. All rights reserved.

2 Kit Contents / Packing List Kit Contents / Packing List KITPFEPEVBE evaluation board KITPFQSG Quick Start Guide Warranty card and Technical support brochure Jump Start Go to Locate your kit Review your Tool Summary Page Look for Jump Start Your Design Download documents, software, and other information KTPFHWUG, Rev.. Freescale Semiconductor

3 Important Notice Important Notice Freescale provides the enclosed product(s) under the following conditions: This evaluation kit is intended for use of ENGINEERING DEVELOPMENT OR EVALUATION PURPOSES ONLY. It is provided as a sample IC pre-soldered to a printed circuit board to make it easier to access inputs, outputs, and supply terminals. This EVB may be used with any development system or other source of I/O signals by simply connecting it to the host MCU or computer board via off-the-shelf cables. This EVB is not a Reference Design and is not intended to represent a final design recommendation for any particular application. Final device in an application will be heavily dependent on proper printed circuit board layout and heat sinking design as well as attention to supply filtering, transient suppression, and I/O signal quality. The goods provided may not be complete in terms of required design, marketing, and or manufacturing related protective considerations, including product safety measures typically found in the end product incorporating the goods. Due to the open construction of the product, it is the user's responsibility to take any and all appropriate precautions with regard to electrostatic discharge. In order to minimize risks associated with the customers applications, adequate design and operating safeguards must be provided by the customer to minimize inherent or procedural hazards. For any safety concerns, contact Freescale sales and technical support services. Should this evaluation kit not meet the specifications indicated in the kit, it may be returned within days from the date of delivery and will be replaced by a new kit. Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. Typical parameters can and do vary in different applications and actual performance may vary over time. All operating parameters, including Typical, must be validated for each customer application by customer s technical experts. Freescale does not convey any license under its patent rights nor the rights of others. Freescale products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Freescale product could create a situation where personal injury or death may occur. Should the Buyer purchase or use Freescale products for any such unintended or unauthorized application, the Buyer shall indemnify and hold Freescale and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Freescale was negligent regarding the design or manufacture of the part.freescale and the Freescale logo are trademarks of Freescale Semiconductor, Inc. All other product or service names are the property of their respective owners. Freescale Semiconductor, Inc. 4 KTPFHWUG, Rev.. Freescale Semiconductor

4 Introduction 4 Introduction The KITPFEPEVBE evaluation board allows full evaluation capability of the MMPF PMIC for the i.mx family of application processors. It provides access to all output voltage rails as well as control and signal pins through terminal block connectors for an easier out-of-the-box evaluation experience. A single terminal block connector for the input power supply allows the user to supply the board with an external DC power supply to fully evaluate the performance of the device. The KITPFEPEVBE comes with a non-programmed version of the MMPF PMIC, and it is configured to power up from the default power-up sequence. However, an integrated control/fuse programming interface is provided to allow the customer to program the OTP/TBB (One Time Programmable/Try-Before-Buy) memory and select it as the default source for the power-up configuration. Likewise, the programming interface allows full control of the MMPF through the I C communication lines. This document is intended to provide the hardware description of the KITPFEPEVBE evaluation board. KTPFHWUG, Rev.. 4 Freescale Semiconductor

5 Evaluation Board Features 5 Evaluation Board Features Input voltage operation range from. to 4.5 V Output voltage supplies accessible through detachable terminal blocks Three to four independent buck converters One 5. V boost regulator Six general purpose LDO regulators One DDR memory termination voltage reference One VSRTC supply Coin cell support for Try-Before-Buy (TBB) mode On/off push button support Hardware configuration flexibility through various jumper headers and resistors Integrated USB to I C programming interface for full control/configuration Onboard OTP programming supply and control Onboard PMIC control through the I C register map Fully featured programmer through J6 for external device control/programming On board connectors for interfacing with future evaluation/debug tools Compact form factor (4 x 4 in ) 5. Board Identification The KITPFEPEVBE evaluation board is designed to be used along with the KITPFGUI 4. Graphical User Interface. Table provides a list of all available versions of this board and the respective software compatibility and marking differences. The hardware configuration outlined in this document is valid for layout REV D and schematic Rev D. Table. Board Deviation Summary Board Name Layout Revision (7-7458) Hardware deviations Software Version Software User Guide KITPFEPEVBE Rev D - KITPFGUI 4. release 4...x Refer to Document KTPFSWUG4.pdf KTPFHWUG, Rev.. Freescale Semiconductor 5

6 Evaluation Board Features Layout Revision printed in Copper REV D KTPFHWUG, Rev.. 6 Freescale Semiconductor

7 MMPFNPAEP Device Features 6 MMPFNPAEP Device Features The MMPF is highly integrated power management IC ideally suited i.mx 6 series of applications processors. It features the following: Four buck regulators Boost regulator to 5. V output Six general purpose linear regulators Programmable output voltage, sequence, and timing OTP (One Time Programmable) memory for device configuration Coin cell charger and RTC supply DDR termination reference voltage Power control logic with processor interface and event detection Freescale analog ICs are manufactured using the SMARTMOS process, a combinational BiCMOS manufacturing flow that integrates precision analog, power functions, and dense CMOS logic together on a single cost-effective die. 7 MC958JM6 Device Features The KITPFEPEVBE implements a Freescale MC9S8JM6 low-cost, high-performance 8-bit HCS8 microcontroller to interface via USB to IC to control the main PMIC. 8-bit HCS8 Central Processing Unit (CPU) Up to 4 MHz internal bus (48 MHz HCS8 core) frequency offering.7 to 5.5 V across temperature range of -4 to +85 C Support for up to peripheral interrupt/reset sources On-Chip Memory Up to 6 K flash read/program/erase over full operating voltage and temperature Up to 4 K RAM 56 Byte USB RAM KTPFHWUG, Rev.. Freescale Semiconductor 7

8 Required Equipment 8 Required Equipment 8. Hardware Requirements Power supply: Output voltage range from. to 4.5 V Current capability from. to 5. A (current requirement is dependent on output loading) Supply to board connection cables (capable of withstanding up to 5. A current) USB (male) to mini USB (male) communication cable. USB-enabled computer. Multimeter 8. Software Requirements Windows XP or Windows 7 operating system KITPFGUI 4..zip: Graphical User Interface (GUI) for KITPFEPEVBE Refer to document KTPFSWUG4.PDF located at Freescale.com for detailed instruction on software installation and control. KTPFHWUG, Rev.. 8 Freescale Semiconductor

9 Evaluation Board Configuration 9 Evaluation Board Configuration Connect the power supply and the USB communication cables as shown in Figure. Voltmeters are optional but they are recommended to accurately verify that each one of the output supplies provides the correct voltage level. PF Evaluation Board Figure. Evaluation Board Setup Note: The KITPFEPEVBE allows the selection of an SW regulator output or an external. V LDO output as the V DDIO /I C pull-up supply. By default, the SW regulator is the source for the V DDIO supply (J = -). If the SW regulator is to be set below. V, then make sure the. V LDO output is connected to V DDIO and the I C pull-up resistors by removing R4 and R and the shorting pins,, and of J. KTPFHWUG, Rev.. Freescale Semiconductor 9

10 Evaluation Board Configuration 9. Hardware Configuration By default, the KITPFEPEVBE evaluation board is set to power-up from the default power-up sequence. Verify that the jumpers are placed in the right position as shown in Figure. For a detailed description of the jumper functionality, refer to Table. SWVIN PVIN SDA SCL VDDIO SWBST RSTMCU SDWNB INTB PWRON STBY J5 J J J8 J9 J C6 BH J5 J J D J8 J9 D 4 J D4 J47 R6 Q R9 R8 J4 J6 C A C A R4 R69 Q 6 J4 R7 Q J7 4 RESETBMCU VIN_SENSE VDDIO SDA J4 SDWNB C9 J INTB SCL J9 J J J7 STANDBY C8 VSWBST 6 J46 J45 C6 R ICTEST C5 J LX_SWA D L C A C7 C8 VGEN6 5 6 VIN VIN_SWA C5 R R8 C R5 R79 C87 R C55 C5 C46 VGEN5 R R9 C5 C47 C77 C54 C4 L7 C56 U C9 C5 C VIN_SWA J6 R 56 C4 SWAB C C5 C LX_SWA L C4 LX_SWB R8 C6 R7 SWA C J4 VIN_SWB R R 5 8 C44 J C C L8 LX_SWB J9 C5 C L4 R R6 R7 J5 C4 C6 C C VIN_SWB R SWC VIN VREFDDR L6 VIN_SWC J7 VGEN4 5 6 C8 VINREFDDR A C C8 VIN_SW D R67 D R68 VHALF A C L J5 F VIN_SW4 VGEN J4 S S R4 R45 J J J J J5 J4 5 FREESCALE S4 S BH C7 L9 R5 R5 C4 C C C R R7 R4 VDDOTP L VGEN C R9 R6 C LX_SWC VIN R5 C9 VGEN R C48 C4 SW4 C5 C7 C9 R C8 J6 R86 R4 C45 R C4 C49 L5 LX_SW4 VCOREREF C7 C4 SW LX_SWBST VCOREDIG R6 C84 C8 LX_SW VIN_SWBST VCORE PWRON R7 VSNVS SWB J J9 J8 SW J6 5 BH4 BAT + - J J9 J8 J6 BH GEN GEN GEN GEN4 GEN5 Y GEN6 SNVS REFDDR PLACE LABEL HERE J J J J J5 J4 SwC SWAB SW4 SW SWB SWA Figure. Default Jumper Configuration Diagram KTPFHWUG, Rev.. Freescale Semiconductor

11 Evaluation Board Configuration 9. Hardware Description The KITPFEPEVBE operates with a single power supply from. to 4.5 V and is controlled via USB with the help of an integrated USB-I C communication bridge. By applying the input voltage supply, the KITPFEPEVBE will power-up according to the default power-up sequence described in the MMPF datasheet. For controlling the MMPF device or programming the OTP registers, refer to the KTPFSWUG4.PDF user guide. Important notice: If power-up sequences and configuration are to be modified, the user must ensure that the register settings are consistent with the hardware configuration. This is most important for the buck regulators, where the quantity, size, and value of the inductors depend on the configuration (single/dual phase or independent mode) and the switching frequency. Additionally, if an LDO is powered by a buck regulator, it will be gated by the buck regulator in the start-up sequence. Refer to the MMPF Data Sheet for details on buck regulator setup. 9. Jumper Description Table. KITPFEPEVBE Jumper Description Jumper Default Description J - J7 Closed Buck regulators input power path isolation. Short these jumpers to allow SWxIN to be powered from the SWVIN supply. J9 Closed SWBST regulator input power path isolation. Short this jumper to allow SWBSTIN to be powered from the SWVIN supply. J7 5-6 VDDOTP Supply selector -: Connect VDDOTP to the OTP Boost output (VDDOTPIN) for OTP programming. -4: Connect VDDOTP to to power-up from OTP/TBB sequence. 5-6: Connect VDDOTP to VCOREDIG to power up from Default Power-up sequence. J - Coin cell selector. -: Enables BAT as the main coin cell supply. -: Enables BAT as the main coin cell supply. J4 Closed Shorts PVIN and SWVIN. Allows supply isolation to provide more accurate efficiency readings on the switching supplies. J4 Open Shorts SWVIN to VIN. Allows one to isolate or connect the MMPF logic input supply to SWVIN net. (debugging option) J7 Closed Shorts PVIN to VIN. Allows one to isolate or connect the MMPF logic input supply to PVIN net. (debugging option) J - MMPF input logic supply selector. -: Connects MMPF VIN pin to the. V external LDO regulator for debugging purposes. -: Connects MMPF VIN pin to the main input supply. Refer to Figure. J6 Open Short to hold PWRON pin low. J4 Open Short to pull STANDBY to VSNVS voltage supply. J47 Close Connects PWRON pin on the MMPF to an I/O on the MCU. J Allows I C signal isolation on the local MMPF when the KITPFEPEVBE is used as an external programmer. KTPFHWUG, Rev.. Freescale Semiconductor

12 Evaluation Board Configuration Table. KITPFEPEVBE Jumper Description (continued) Jumper Default Description J46-4 VDDIO supply / I C pull-up supply selector -: Pull the SCL/SDA signals to the external. V LDO regulator output. -4: Pull the SCL/SDA signals to SW output. NOTE: Do not connect both positions at the same time. J9 - Control Interface input supply selector -: Enables PVIN node as the input supply source for the control interface. -: Enables USB power as the input supply source for the control interface. 9.4 Connectors and Terminal Blocks Description Table. Terminal Blocks descriptions Connector Function Pin definition J8 SWBST Pin - SWBST Output Pin - J SWAB Pin - SWAB Output Pin - J Not Available Reserved for board compatibility J SW Pin - SW Output Pin - J Not Available Reserved for board compatibility J4 SWA Pin - SWA Output Pin - J5 SWB Pin - SWB Output Pin - J6 VGEN/VGEN Pin - VGEN Output Pin - Pin - VGEN Output J8 VGEN/VGEN4 Pin - VGEN Output Pin - Pin - VGEN4 Output J9 VGEN5/VGEN6 Pin - VGEN5 Output Pin - Pin - VGEN6 Output J VSNVS/VREFDDR Pin - VSNVS Output Pin - Pin - VREFDDR Output J5 Main Input Supply Pin - Pin - PVIN Pin - SWVIN J9 Interfacing Pin - INTB Pin - SDWNB Pin - RESETBMCU J Interfacing Pin - STANDBY Pin - PWRON Pin - KTPFHWUG, Rev.. Freescale Semiconductor

13 Evaluation Board Configuration Table. Terminal Blocks descriptions (continued) Connector Function Pin definition J I C Signals Pin - SCL Pin - SDA J VDDIO Pin - VDDIO Pin - SWBST Output VDDIO I C Interface Vin Supply Input RESETBMCU SDWNB INTB PWRON STANDBY INTB State Indicator PWRON State Indicator Device Attached Indicator OTP Programming Indicator Mini USB VREFDDR Output VSNVS Output VGEN6 Output VGEN5 Output VGEN4 Output VGEN Output VGEN Output VGEN Output SWAB Output Figure 4. Input/Output Terminal Blocks SWA Output SWB Output SW Output KTPFHWUG, Rev.. Freescale Semiconductor

14 Evaluation Board Configuration Table 4. Connector Description Connector Function Pin definition J4 Mini USB connector Pin - VBUS Pin - D- Pin - D+ Pin 4 - NC Pin 5 - Chassis - J5 BDM connector Pin - BKGD_JM6 Pin - Pin - NC Pin 4 - RST_JM6 Pin 5 - NC Pin 6 - USB_PWR J6 Programmer connector Pin - VDDOTPIN (8.5 V boost output) Pin - V (. V LDO output) Pin - Pin 4 - MCU_SCL (I C clock signal) Pin 5 - MCU_SDA (I C data signal) Pin 6 - PWRON (Controls the PWRON on the target device) Pin 7 - GPIO (General Purpose GPIO) Pin 8 - GPIO (General Purpose GPIO) J4 Debug Port Debugging connector for future development tools. SWC SWAB SW4 SW SWB SWA J HDR_X SWC SWAB SW4 SW SWB SWA J4 Debug Port Debugging connector for future development tools J VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS VREFDDR ST J44 Debug Port Debugging connector for future development tools HDR_X STANDBY J HDR_X PWRON INTB SDWNB RESETBMCU SWBST VDDIO MCU_SCL MCU_SDA PVIN SWVIN KTPFHWUG, Rev.. 4 Freescale Semiconductor

15 Evaluation Board Configuration 9.5 Debug and Configuration Components The KITPFEPEVBE allows full flexibility to change the default configuration of SWA/B and SWA/B outputs to a more suitable configuration for a specific application. It also provides several source options for the LDO supplies to test various loading and supplying scenarios. Test point are provided on key nodes of the KITPFEPEVBE to allow full debugging capability during application development SWA/B Configuration Components SWAB SWAB L R4 J SWALX LX_SWA SWBLX LX_SWB SWCLX LX_SWC R6. R9. uh. C C C C4 R7. UF UF UF UF R8 L uh. R for KITPFEPEVBE. L4 R uh. C5 C6 UF UF SWABFB SWC SWC SWCFB SUB_TB_x J SUB_TB_x Figure 5. SWA/B/C Output Configuration The SWA/B regulator can be configured in various operating modes as described in Table 5. Table 5. SWAB Configuration Chart Component SWA/B Single phase SWA/B Dual phase R6 Closed R4 Closed Closed R7 Closed R8 Closed L. H ISAT = 4.5 A. H ISAT =.4 A L N/A. H ISAT =.4 A L4 RESERVED RESERVED R9 RESERVED RESERVED R RESERVED RESERVED R RESERVED RESERVED KTPFHWUG, Rev.. Freescale Semiconductor 5

16 + - Evaluation Board Configuration 9.5. SWA/B Configuration Components SWA SWALX LX_SWA L7 uh C UF C UF SWAFB SWA J4 SUB_TB_x SWBLX LX_SWB R6. L8 uh R7. R7. C UF C UF SWB SWBFB SWB J5 SUB_TB_x Figure 6. SWA/B Output Configuration The SWA/B regulator can be configured in various operating modes as described in Table 6. Table 6. SWABC Configuration Chart Component SWA/B Single phase SWA/B Dual phase 9.5. LDO Input Supply Source Selection SWA Independent SWB Independent R6 Closed R7 Closed Closed R7 Closed Closed L7. H ISAT =.9 A. H ISAT =. A L8 N/A. H ISAT =. A. H ISAT =. A. H ISAT =. A VREFDDR SWA SWB VREFDDR R6 C4.UF R7 C84.UF V SW V SW VIN SW R R4 R R R R5 VINREFDDR C44.UF VHALF C45.UF VIN VIN VIN LDO SUPPLIES UB 7 6 VGEN VIN VGEN 7 8 VGEN VIN VGEN 4 6 VGEN VIN VGEN 8 VGEN4 VGEN4 9 VGEN5 VGEN5 4 VGEN6 VREFDDR VGEN6 VINREFDDR 4 LICELL 9 VSNVS VHALF VSNVS 4 VSNVS C47 MMPFNPAEP.47uF VGEN VGEN VGEN5 R86 VGEN VGEN4 VGEN6 C46.uF C4 C8 C4 J.UF.UF.UF HDR X - CLOSED 4.7uF C5 4.7uF C4 C4.UF BAT LICELL 6.8mm Leaded Place Top VGEN SENSE VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS BAT BK mm Place Bottom Figure 7. LDO Schematic Configuration KTPFHWUG, Rev.. 6 Freescale Semiconductor

17 Evaluation Board Configuration CONTROL LOGIC V - CLOSED VIN VSNVS PWRON V SW VIN_SENSE VCOREDIG VCOREDIG VCOREREF VCOREREF VDDIO VCORE VCORE C5 C5 C5 C54-4 CLOSED.UF.UF.uF.UF J46 VDDOTP VDDOTP 4 SCL HDR X C55 C56 J45.UF MCU_SCL.UF MCU_SDA 4 HDR X SDA R6 4.7K J R8 HDR X M UA VIN VCOREDIG PWRON 56 VCOREREF RESET_MCU 54 SCL 5 SDA VCORE REF VDDOTP VDDIO R7 4.7K MMPFNPAEP STANDBY 4 SDWN INT 5 ICTEST ICTEST CONSUMER J47 PWRON HDR X TH J6 PVIN PVIN PVIN HDR X TH R R R.K.K.K FSMSM SW RESETBMCU RESETBMCU STANDBY STANDBY SDWNB SDWNB INTB INTB VSNVS R5 ICTEST HDR X TH J4 STANDBY VDDIO C87.UF R9 K Figure 8. Logic and Core Supplies Schematic Table 7. LDO Input Supply Configuration Chart Input Pin Input options VIN Input supply for VGEN and VGEN R = External. V Supply R = SW VIN Input supply for VGEN and VGEN4 R4 = External. V Supply R = SW VIN Input supply for VGEN5 and VGEN6 R = VIN R5 = SW VINREFDDR VREFDDR input supply R6 = SWA R7 = SWB. Make sure to populate only one option per input pin to avoid shorts between various sources. KTPFHWUG, Rev.. Freescale Semiconductor 7

18 Evaluation Board Configuration Test Point All test points are clearly marked on the KITPFEPEVBE evaluation board. Figure 9 shows the location of various test points of interest during evaluation. VDDIO INTB SDWNB RESETBMCU STANDBY VCOREREF=.V VCOREDIG=.5V VCORE=.8V PWRON VSNVS SWBST VDDOTP SWAB VGEN6 VGEN5 SWA SWB VREFDDR VGEN4 VGEN VGEN VGEN SW Figure 9. Key Test Point Locations and Default Voltages KTPFHWUG, Rev.. 8 Freescale Semiconductor

19 Evaluation Board Configuration 9.6 Miscellaneous Components 9.6. Power on Push Button A footprint for a normally open, momentary push-button (SW) is provided at the PWRON pin to allow a momentary low state by pressing the push button. J47 allows isolation of the PWRON pin from the MCU GPIO controlling this pin, while J6 forces the PWRON pin to ground when closed. VSNVS PWRON R8 J47 PWRON M HDR X TH J6 PVIN PVIN PVIN OREDIG OREREF ORE DREF DOTP CONSUMER 9.6. PMIC LED Indicators DIO L A PWRON 56 RESET_MCU STANDBY 4 SDWN INT ICTEST 5 ICTEST HDR X TH FSMSM SW ICTEST Figure. Power on Circuit LED indicators are provided to notify the PMIC status to the user. Figure shows the PMIC status LEDs D, D, and D4, to monitor INTB, PWRON, and RESETBMCU signals respectively. RESETBMCU STANDBY SDWNB INTB R5 R.K HDR X TH R.K VSNVS R.K J4 RESETBMCU STANDBY SDWNB INTB INTERRUPT INDICATOR SHUTDOWN INDICATOR RESET INDICATOR INTB PVIN PVIN PVIN A PWRON FDVP Q R8 OHM A FDVP Q R69 OHM R4 OHM R9 OHM D4 4 Red Grn LED_RED-GRN FDC67C 5 S G D LED Red D LED Red 6 4 D RESETBMCU D C C G PVIN S Q Figure. PMIC Status Indicator KTPFHWUG, Rev.. Freescale Semiconductor 9

20 Evaluation Board Configuration Table 8 describes the meaning of the LED states. Table 8. LED State Description LED D D4 D Description Interrupt Notification ON = PMIC has detected an unmasked interrupt OFF = No interrupt detected RESETBMCU Notification Green = PMIC is in regulation and operating properly Red = PMIC is out of regulation PWRON State ON = PWRON pin is low OFF = PWRON pin is high 9.6. Control/Programming Interface This onboard USB-to-I C interface comprises three basic blocks.. Controlling MCU (MC9S8JM6CGTE) for USB-I C translation... V LDO supply for external device controlling V boost converter for OTP programming. The control/programming interface allows one to program the onboard MMPF PMIC. Alternatively, the interface can serve as a programmer for external devices though the connector J6. KTPFHWUG, Rev.. Freescale Semiconductor

21 5 4 Evaluation Board Configuration USB Connector Type A J4 USB-MiniB S4 G ID D+ D- VBUS S S S V D- D+ G USB_PWR CLOSED - USB_PWR F.5A HDR X L HI8VR- R4 R45 L9 HI8VR- J9 PVIN VIN_USB USBDN USBDP C6.uF C6.uF PWRON VDDOTPIN_SNS ID ID MCU_SCL MCU_SDA R7 GPIO GPIO R U PTA PTA5 PTC/SCL PTC/SDA PTC PTC/TxD PTC4 PTC5/RxD C57.uF PTB/MISO/ADP PTB/MOSI/ADP PTB/SPSCK/ADP PTB/SS/ADP PTB4/KBIP4/ADP4 PTB5/KBIP5/ADP5 PTD/ADP8/ACMP+ PTD/ADP9/ACMP- PTD/KBIP/ACMPO PTD7 VIN_USB VDDAD/VREFH 4 VDD 7 C58.uF PTE/TxD PTE/RxD PTE/TPMCH PTE/TPMCH PTE4/MISO PTE5/MOSI PTE6/SPSCK PTE7/SS PTF/TPMCH PTF/TPMCH PTF4/TPMCH PTF5/TPMCH PTF6 PTG/KBIP PTG/KBIP PTG/KBIP6 PTG/KBIP7 PTG4/XTAL PTG5/EXTAL + C59 UF VUSBEN BSTEN VPGMEN VEN LGON LRON BSTUP BSTDN XTAL_JM6 EXTAL_JM6 MAIN IC MC9S8JM6 Place on Bottom BDM Programmer BKGD_JM6 R5 4.7K USB_PWR J R5 4.7K RST_JM6 USB_PWR C65.uF RST_JM6 BKGD_JM6 4 IRQ/TPMCLK RESET BKGD/MS MC9S8JM6CGTE 5 8 VSSAD/VREFL 4 VSS 49 VSSOSC VUSB USBDN 9 USBDP USBDN USBDP R49.5K VUSB C64 R48.47UF.5K VUSB + C66 4.7UF HDR X 8V - Boost Converter Place on Bottom Crystal Place on Bottom L R4 M Q FDN6P Q5 FDN6P UH U4 MAX686 D9 Q6 FDN6P XTAL_JM6 Y 4 I/O 4 VIN_USB R55 R76 47K + C7 5UF Q9 VUSBEN BSTEN BSS8 BSTUP BSTDN R75 47K R6 R64 R65 K K K *The boards are reworked to connect pin of Q9 to ground 5 6 C75 UF 7 4 VDD LX 6 VCC ISET 8 DACOUT FB NC 5 SHDN LCDON 4 UP POK DN 9 POL REF P A C MBRLSFTG R59 74K C76.uF R56 64K R6 K C7 PF R6 + C7 C74 47K 4.7uF.uF VPGMEN R66 47K VDDOTPIN R77 K VDDOTPIN_SNS R78 K Q8 BSS8 MHz C6 PF ESD PROTECTION I/O ESD9L5.ST5G A C ID D5 ESD9L5.ST5G A C ID D8 ESD9L5.ST5G A C MCU_SDA D6 ESD9L5.ST5G A C MCU_SCL D7 EXTAL_JM6 C6 PF Place on Bottom LDO REGULATOR.V Place on Bottom LED INDICATORS Programming Interface C8.UF C78 47PF V VIN_USB R R7.K VEN R R7 K 4 U5 IN EN ADJ MIC55 OUT PROGRAMMING CONNECTOR V 5 C79.uF + C8.UF USB_PWR LED Green C A D R67 47 USB_PWR C A D LED Red R68 47 VDDOTPIN MCU_SDA GPIO J HDR X4 MCU_SCL PWRON GPIO C77.UF V VOUT =.4 X ( (R/R) + ) =.V LGON LRON R = ((VOUT/.4) -) X R Figure. Control/Programming Interface Schematic KTPFHWUG, Rev.. Freescale Semiconductor

22 Evaluation Board Configuration 9.7 Programming an External MMPF Through J6 If the KITPFEPEVBE is used as an external programmer for either a customer board or a dedicated MMPF programming socket, J6 provides the required signals for such a task. However, it will be necessary to isolate the communication signals from the on-board PMIC by doing the following:. Remove all jumpers from J. Remove all jumpers from J7. Remove all jumpers from J45 4. Remove jumper J47 Note: If it is desired to perform One-Time Programming of the MMPF device soldered on the KITPFEPEVBE evaluation board, ensure that the board hardware is correctly configured according to the chosen OTP settings. The KITPFEPEVBE allows the configuration of the SW regulator or an external. V LDO output as the V DDIO /I C pull-up supply. By default, the SW regulator is the source for the V DDIO supply (J46 = -4). If the SW regulator is to be set below. V, then make sure the. V LDO output is connected to V DDIO and the I C pull-up resistors by changing J46 position to -. KTPFHWUG, Rev.. Freescale Semiconductor

23 Evaluation Board Schematic Evaluation Board Schematic VREFDDR SWA SWB VREFDDR R6 C4.UF R7 C84.UF V SW V SW VIN SW R R4 R R R R5 VINREFDDR C44.UF VHALF C45.UF VIN VIN VIN LDO SUPPLIES UB 7 6 VGEN VIN VGEN 7 8 VGEN VIN VGEN 4 6 VGEN VIN VGEN 8 VGEN4 VGEN4 9 VGEN5 VGEN5 4 VGEN6 VREFDDR VGEN6 VINREFDDR 4 LICELL 9 VSNVS VHALF VSNVS 4 VSNVS C47 MMPFNPAEP.47uF VGEN VGEN VGEN5 R86 VGEN VGEN4 VGEN6 C46.uF C4 C8 C4 J.UF.UF.UF HDR X - CLOSED 4.7uF C5 4.7uF C4 C4.UF BAT LICELL 6.8mm Leaded Place Top VGEN SENSE VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS BAT BK mm Place Bottom INPUT SUPPLIES LDO INPUT SENSE VDD OTP SWVIN PVIN SWVIN VIN VDDOTPIN VDDOTP SWVIN PVIN J5 J4 J4 HDR X TH CLOSED HDR X TH J7 CLOSED HDR X TH VIN VIN VIN VIN VIN VIN C48.UF C49.UF C5.UF C6.uF C7.uF C9.uF VDDOTPIN 4 J7 HDR X R79 VCOREDIG K SUBASSY_TB_x CONTROL LOGIC V - CLOSED VIN VSNVS PWRON V SW VIN_SENSE VCOREDIG VCOREDIG VCOREREF VCOREREF VDDIO VCORE VCORE C5 C5 C5 C54-4 CLOSED.UF.UF.uF.UF J46 VDDOTP VDDOTP 4 SCL HDR X C55 C56 J45.UF MCU_SCL.UF MCU_SDA 4 HDR X SDA R6 4.7K J R8 HDR X M UA VIN VCOREDIG PWRON 56 VCOREREF RESET_MCU 54 SCL 5 SDA VCORE REF VDDOTP VDDIO R7 4.7K MMPFNPAEP STANDBY 4 SDWN INT 5 ICTEST ICTEST CONSUMER J47 PWRON HDR X TH J6 PVIN PVIN PVIN HDR X TH R R R.K.K.K FSMSM SW RESETBMCU RESETBMCU STANDBY STANDBY SDWNB SDWNB INTB INTB VSNVS R5 ICTEST HDR X TH J4 STANDBY VDDIO C87.UF R9 K Figure. KITPFEPEVBE LDO/Control Schematic Part KTPFHWUG, Rev.. Freescale Semiconductor

24 Evaluation Board Schematic INTERRUPT INDICATOR SHUTDOWN INDICATOR RESET INDICATOR INTB PVIN PVIN PVIN A PWRON FDVP Q R4 OHM R8 OHM A FDVP Q R69 OHM R9 OHM D4 4 Red Grn LED_RED-GRN FDC67C 5 S G D LED Red D LED Red 6 4 D RESETBMCU D C C G PVIN S Q J CON_X VGEN VGEN VGEN VGEN4 VGEN5 VGEN6 VSNVS VREFDDR STANDBY J CON_X PWRON INTB SDWNB RESETBMCU SWBST VDDIO MCU_SCL MCU_SDA PVIN SWVIN SWC SWAB SW4 SW SWB SWA J CON_X SWC SWAB SW4 SW SWB SWA LDO Terminal Blocks Interface Terminal Blocks IC Terminal Blocks J6 VGEN VGEN SUBASSY_TB_x J8 VGEN VGEN4 SUBASSY_TB_x J9 VGEN5 VGEN6 SUBASSY_TB_x J VSNVS VREFDDR SUBASSY_TB_x INTB SDWNB RESETBMCU STANDBY PWRON PVIN C86 47PF MCU_SCL MCU_SDA HOT PLUG WORKAROUND (LEGACY) R8 J9 SUBASSY_TB_x J SUBASSY_TB_x 4 IN EN ADJ U7 MIC55 OUT 5 R8 47K R8 7K VDDIO R8 C85.UF SUB_TB_x J J SUB_TB_x VCOREDIG Mounting Holes BH BH BH BH4 's MTG MTG MTG MTG Figure 4. KITPFEPEVBE LDO/Control Schematic Part KTPFHWUG, Rev.. 4 Freescale Semiconductor

25 Evaluation Board Schematic CLOSED SWVIN SWVIN SWVIN SWVIN J HDR X TH CLOSED J HDR X TH CLOSED J5 HDR X TH CLOSED J7 HDR X TH VIN_SWA C C 4.7uF.UF VIN_SWB C C6 4.7uF.UF for KITPFEPEVBE VIN_SWC C9 C 4.7uF.UF VIN_SW C C4 4.7uF.UF UC MMPFNPAEP R85 SWABFB 6 SWFB 7 SWAIN SWALX 8 SWALX SWBLX 9 SWBLX SWBIN SWBIN SWCLX RSVD SWCIN RSVD SWCFB RSVD SWVSSSNS4 SWVSSSNS SWLX SWLX 4 SWIN_ SWIN_ SWFB 5 SWFB 57 EP 5 REF SWAFB 8 SWAIN 7 SWALX 6 SWBLX 5 SWBIN 4 SWBFB SWVSSSNS 9 RSVD4 RSVD5 RSVD6 SWBSTLX 46 SWBSTIN 45 SWBSTFB 44 SWAFB SWALX SWBLX SWBIN SWBFB SW4FB SW4IN SW4LX SWBSTLX SWBSTIN SWBSTFB VIN_SWA C4 C5.UF 4.7uF VIN_SWB C7 C8.UF 4.7uF for KITPFEPEVBE VIN_SW4 C C.UF 4.7uF LX_SWBST D A C MBRLSFTG R C7. pf R L.UH. CLOSED SWVIN J HDR X TH CLOSED SWVIN J4 HDR X TH CLOSED J6 SWVIN HDR X TH VSWBST R. C5 C6 C8.UF UF UF VIN_SWBST SWBSTFB C8 UF SWBST J8 SUB_TB_x CLOSED J9 SWVIN C9.UF C.UF HDR X TH SWAB SWAB L R4 J SWALX LX_SWA SWBLX LX_SWB SWCLX LX_SWC R6. R9. uh. C C C C4 R7. UF UF UF UF R8 L uh. R for KITPFEPEVBE. L4 R uh. C5 C6 UF UF SWABFB SWC SWC SWCFB SUB_TB_x J SUB_TB_x SWLX LX_SW L5 uh C7 UF C8 UF SW SWFB SW J SUB_TB_x SW4LX LX_SW4 L6 UH C9 UF for KITPFEPEVBE C8 UF SW4 SW4FB SW4 J SUB_TB_x SWA SWALX LX_SWA L7 uh C UF C UF SWAFB SWA J4 SUB_TB_x SWBLX LX_SWB R6. L8 uh R7. R7. C UF C UF SWB SWBFB SWB J5 SUB_TB_x Figure 5. KITPFEPEVBE Switching Regulators Schematic KTPFHWUG, Rev.. Freescale Semiconductor 5

26 5 4 Evaluation Board Schematic USB Connector Type A J4 USB-MiniB S4 G ID D+ D- VBUS S S S V D- D+ G USB_PWR CLOSED - USB_PWR F.5A HDR X L HI8VR- R4 R45 L9 HI8VR- J9 PVIN VIN_USB USBDN USBDP C6.uF C6.uF PWRON VDDOTPIN_SNS ID ID MCU_SCL MCU_SDA R7 GPIO GPIO R U PTA PTA5 PTC/SCL PTC/SDA PTC PTC/TxD PTC4 PTC5/RxD C57.uF PTB/MISO/ADP PTB/MOSI/ADP PTB/SPSCK/ADP PTB/SS/ADP PTB4/KBIP4/ADP4 PTB5/KBIP5/ADP5 PTD/ADP8/ACMP+ PTD/ADP9/ACMP- PTD/KBIP/ACMPO PTD7 VIN_USB VDDAD/VREFH 4 VDD 7 C58.uF PTE/TxD PTE/RxD PTE/TPMCH PTE/TPMCH PTE4/MISO PTE5/MOSI PTE6/SPSCK PTE7/SS PTF/TPMCH PTF/TPMCH PTF4/TPMCH PTF5/TPMCH PTF6 PTG/KBIP PTG/KBIP PTG/KBIP6 PTG/KBIP7 PTG4/XTAL PTG5/EXTAL + C59 UF VUSBEN BSTEN VPGMEN VEN LGON LRON BSTUP BSTDN XTAL_JM6 EXTAL_JM6 MAIN IC MC9S8JM6 Place on Bottom BDM Programmer BKGD_JM6 R5 4.7K USB_PWR J R5 4.7K RST_JM6 USB_PWR C65.uF RST_JM6 BKGD_JM6 4 IRQ/TPMCLK RESET BKGD/MS MC9S8JM6CGTE 5 8 VSSAD/VREFL 4 VSS 49 VSSOSC VUSB USBDN 9 USBDP USBDN USBDP R49.5K VUSB C64 R48.47UF.5K VUSB + C66 4.7UF HDR X 8V - Boost Converter Place on Bottom Crystal Place on Bottom L R4 M Q FDN6P Q5 FDN6P UH U4 MAX686 D9 Q6 FDN6P XTAL_JM6 Y 4 I/O 4 VIN_USB R55 R76 47K + C7 5UF Q9 VUSBEN BSTEN BSS8 BSTUP BSTDN R75 47K R6 R64 K K 5 LX 6 A C VDD MBRLSFTG VCC 6 ISET 8 R59 C75 DACOUT 74K UF FB 7 SHDN UP 4 DN POL R65 K NC 5 LCDON 4 POK 9 REF C76.uF PROGRAMMING CONNECTOR P R56 64K R6 K C7 PF R6 + C7 C74 47K 4.7uF.uF VPGMEN R66 47K VDDOTPIN R77 K VDDOTPIN_SNS R78 K Q8 BSS8 MHz C6 PF ESD PROTECTION ESD9L5.ST5G A C ID D5 ESD9L5.ST5G A C ID D8 ESD9L5.ST5G A C MCU_SDA D6 Place on Bottom I/O ESD9L5.ST5G A C MCU_SCL D7 EXTAL_JM6 C6 PF LDO REGULATOR.V Place on Bottom LED INDICATORS Programming Interface C8.UF C78 47PF V VIN_USB R R7.K VEN R R7 K 4 U5 IN EN ADJ MIC55 OUT 5 C79.uF V + C8.UF USB_PWR LED Green C A D R67 47 USB_PWR C A D LED Red R68 47 VDDOTPIN MCU_SDA GPIO J HDR X4 MCU_SCL PWRON GPIO C77.UF V VOUT =.4 X ( (R/R) + ) =.V LGON LRON R = ((VOUT/.4) -) X R Figure 6. KITPFEPEVBE Control/Programming Interface Schematic KTPFHWUG, Rev.. 6 Freescale Semiconductor

27 KITPFEPEVBE Board Layout KITPFEPEVBE Board Layout. Assembly Layer Top Figure 7. Assembly Top Layer KTPFHWUG, Rev.. Freescale Semiconductor 7

28 KITPFEPEVBE Board Layout. Assembly Layer Bottom Figure 8. Assembly Layer Bottom KTPFHWUG, Rev.. 8 Freescale Semiconductor

29 KITPFEPEVBE Board Layout. Top Layer Routing Figure 9. Top Layer Routing KTPFHWUG, Rev.. Freescale Semiconductor 9

30 KITPFEPEVBE Board Layout.4 Inner Layer Routing Figure. Inner Layer Routing KTPFHWUG, Rev.. Freescale Semiconductor

31 KITPFEPEVBE Board Layout.5 Inner Layer Routing Figure. Inner Layer Routing KTPFHWUG, Rev.. Freescale Semiconductor

32 KITPFEPEVBE Board Layout.6 Bottom Layer Routing Figure. Bottom Layer Routing KTPFHWUG, Rev.. Freescale Semiconductor

33 Bill of Materials Bill of Materials Table 9. Bill of Materials () Item Qty Notes () () Schematic Label 7 C, C, C5, C8, C9, C, C 4 7 C, C6, C, C, C4, C44, C C4, C7, C9, C56, C77 Value/Description Part Number Manufacturer BAT BATTERY LITHIUM --.V 5.5 MAH MS6F-FLE SII MICRO PARTS LTD. BAT HOLDER COIN CELL 6.8 MM SMT BK-879 MEMORY PROTECTION DEVICES INC CAP CER 4.7 μf V % X5R 6 CAP CER. μf V % X5R 4 CAP CER. μf V % X7R 4 6 C5 CAP CER. μf 5 V % X7R C6, C, C, C5, C6, C7, C8, C9, C, C, C, C, C8, C8 CAP CER μf V % X5R 85 8 () C7 CAP CER PF 5 V X7R 5% 4 9 C8 CAP CER μf V % X7R 85 5 C, C4, C8, C4, C4 CAP CER. μf 6. V % X5R 4 C CAP CER μf V % X5R 85 C4 CAP CER μf V % X7R C5, C4 CAP CER 4.7 μf 6. V % X5R 4 4 C6, C7, C9 CAP CER μf 6 V % X7R C4, C48, C49, C5, C5, C5, C54, C84, C87 CAP CER. μf V % X5R 4 6 C46, C5 CAP CER. μf 6 V % X7R 4 7 C47 CAP CER.47 μf V % X7R 4 8 () C55 CAP CER. μf V % X5R C57, C58, C6, C6, C65 CAP CER. μf 6 V % X5R 4 KTPFHWUG, Rev.. Freescale Semiconductor

34 Bill of Materials Table 9. Bill of Materials () (continued) Item Qty Notes Schematic Label Value/Description Part Number Manufacturer C59 CAP TANT μf 6 V % C6, C6, C7 CAP CER PF 5 V 5% CG 4 C64 CAP CER.47 μf 6 V % X7R 6 C66 CAP TANT 4.7 μf V % C7 CAP TANT ESR.6 OHMS 5 μf 5 V % C7 CAP TANT 4.7 μf 5 V % C74 CAP CER. μf 5 V % X5R 4 7 C75 CAP CER. μf 5 V % X5R 6 8 C76 CAP CER. μf 6. V % X7R 4 9 C78, C86 CAP CER 47 PF 5 V 5% COG 6 () C79 CAP CER. μf 6 V % X5R 6 C8 CAP CER. μf 6 V % X5R 6 C8 CAP TANT ESR=.8 OHMS. μf V % 6-8 () C85 CAP CER. μf 6. V % X5R 4 4 D DIODE SCH PWR RECT A V MBRLSFTG ON SEMICONDUCTOR SMT 5 D, D, D LED RED SGL MA 6 SML-LXFM6SIC-TR LUMEX 6 D4 LED DUAL GRN/RED MA SMT LTST-C95KGJRKT LITE ON 7 4 D5, D6, D7, D8 DIODE TVS ESD PROT ULT LOW ESD9L5.ST5G ON SEMICONDUCTOR CAP V SOD-9 8 D9 DIODE SCH PWR RECT A V MBRLSFTG ON SEMICONDUCTOR SOD- 9 D LED GRN SGL MA SMT 6 SML-LXFM6SUGCTR LUMEX 4 F FUSE PLYSW.5 A. V SMT MICROSMD5F- RAYCHEM 4 56 () - TEST POINT RED 4 MIL DRILL 8 MIL TH 9L 4 4 J, J, J, J4, J5, J6, J7, J9, J4, J6, J7, J4, J4, J J8, J, J, J, J, J4, J5, J, J HDR X TH MIL SP 9H AU 8L SUBASSEMBLY CON X TB TH.8 MM SP H -- 8L + TERM BLOCK PLUG.8MM POS KTPFHWUG, Rev.. 4 Freescale Semiconductor

35 Bill of Materials Table 9. Bill of Materials () (continued) Item Qty Notes Schematic Label Value/Description Part Number Manufacturer 44 7 J6, J8, J9, J, J5, J9, J SUBASSEMBLY CON X TB TH.8 MM SP H -- 8L + TERM BLOCK PLUG.8MM POS 45 J7, J5 HDR X TH MIL 46 J, J, J9 HDR X TH MIL 47 J46, J45 HDR x TH MIL 48 J4 CON 5 USB MINI-B RA SHLD SKT 6754 MOLEX SMT MIL SP AU 49 J6 HDR X4 TH MIL 5 () J4, J4, J44 HDR X SMT MIL 5 L IND PWR. μh@ KHZ. A LPS5-ML_ COILCRAFT % SMT 5 L IND PWR. μh@ khz 6. A XAL4-MEC COILCRAFT % SMT 5 4 L, L4, L5, L8 IND PWR. μh@ KHZ.4 A LPS4-NLC COILCRAFT % SMT 54 L6 IND PWR UH@MHZ. A % VLS5T-RN TDK SMT 55 L7 IND PWR. μh@ KHZ.65 A LPS55-MLC COILCRAFT % SMT 56 L9 IND FER OHM@ MHZ HI8VR- LAIRD TECHNOLOGIES 8. A 5% SMD/8 57 L IND PWR CHK μh@. KHZ. A % SMD WURTH ELEKTRONIK EISOS GMBH & CO. KG 58 L IND FER OHM@ MHZ HI8VR- LAIRD TECHNOLOGIES 8. A 5% SMD/8 59 Q TRAN MOSFET DUAL N & P FDC67C FAIRCHILD CHANNEL.5 V S-SOT6 6 Q, Q TRAN PMOS SW MA 5 V FDVP FAIRCHILD SOT 6 Q5, Q6, Q TRAN PMOS SW. A V SSOT FDN6P FAIRCHILD 6 Q8, Q9 TRAN NMOS 5 V MA SOT- BSS8 FAIRCHILD 6 6 R, R, R4, R6, R8, R6 64 () 65 5 () P R7, R9, R, R7, R7 RES --. OHM /4 W 5% 85 LMI-R-5. ISABELLENHÜTTE HEUSLER GMBH & CO. KG R RES MF. OHM /6 W % 4 66 R RES MF. OHM. W % () R, R, R4, R7, R R, R, R5, R6, R85 RES --. OHM /4 W 5% 85 LMI-R-5. ISABELLENHÜTTE HEUSLER GMBH & CO. KG RES MF ZERO OHM / W % 6 RES MF ZERO OHM / W % 6 69 R8, R4 RES MF. M /6 W % 4 CSNL6FTL STACKPOLE ELECTRONICS KTPFHWUG, Rev.. Freescale Semiconductor 5

36 Bill of Materials Table 9. Bill of Materials () (continued) Item Qty Notes Schematic Label Value/Description Part Number Manufacturer 7 R9, R79 RES MF K /6 W 5% 4 7 R, R, R RES MF. K /6W % 4 7 R5, R7, R74 RES MF ZERO OHM / W R6, R7, R5, R5 RES MF 4.7 K /6 W % R8, R9, R4, R69 RES MF OHM / W % 4 75 R4, R45 RES MF. OHM /6 W % 4 76 () R48, R49 RES MF.5 K /6 W 5% 4 77 R55 RES MF OHM / W % 6 78 R56 RES MF 64 K /6 W % 4 79 R59 RES MF 74 K /6 W % 4 8 R6, R76 RES MF 47 K /6 W % 4 8 R6 RES MF K /6 W % 4 8 R6, R64, R65 RES MF K /6 W 5% 4 8 R66, R75 RES MF 47 K /6 W % 4 84 R67, R68 RES MF 47 OHM /6 W % 4 85 R7 RES MF K / W 5% 6 86 R7 RES MF. K / W % 6 87 R77, R78 RES MF K /6 W % 4 88 R8 RES MF 7 K /6 W 5% 4 89 R8 RES MF 47 K /6 W 5% 4 9 () R8, R8, R84 RES MF ZERO OHM / W () SW SW SPST PB V 5 MA SMT 9 U IC POWER MANAGEMENT CONSUMER/INDUSTRIAL QFN56 9 U IC MCU 8BIT 48 MHZ 6 KB FLASH V QFN48 94 U4 IC DAC CTRL BOOST INV +/-7.5 V V QSOP6 95 U5, U7 IC LIN VREG LDO.5-5V 5 MA.5-6 V SOT-5 MMPFNPEP MC9S8JM6CGT MAX686EEE+ MIC55YM5 FREESCALE SEMICONDUCTOR FREESCALE SEMICONDUCTOR MAXIM MICREL 96 Y XTAL MHZ SER 9. PF SMT ECS--9-4X-CKM-TR ECS INC. INTERNATIONAL Notes. For critical components, it is recommended to use the manufacturer listed.. Do not populate. Freescale does not assume liability, endorse, or warrant components from external manufacturers that are referenced in circuit drawings or tables. While Freescale offers component recommendations in this configuration, it is the customer s responsibility to validate their application. KTPFHWUG, Rev.. 6 Freescale Semiconductor

37 References References Document Number Description URL MMPF Data Sheet MMPFER Errata PFSERIESFS Fact Sheet AN46 Layout Application Note KTPFSWUG4 Software User Guide Product Summary Page Tool Summary Page Analog Home Page Power Management Home Page Support Visit Freescale.com/support for a list of phone numbers within your region.. Warranty Visit Freescale.com/warranty for a list of phone numbers within your region. KTPFHWUG, Rev.. Freescale Semiconductor 7

38 Revision History 4 Revision History Revision Date Description of Changes. /4 Initial release KTPFHWUG, Rev.. 8 Freescale Semiconductor

39 How to Reach Us: Home Page: freescale.com Web Support: freescale.com/support Information in this document is provided solely to enable system and software implementers to use Freescale products. There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits based on the information in this document. Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no warranty, representation, or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. Typical parameters that may be provided in Freescale data sheets and/or specifications can and do vary in different applications, and actual performance may vary over time. All operating parameters, including typicals, must be validated for each customer application by customer s technical experts. Freescale does not convey any license under its patent rights nor the rights of others. Freescale sells products pursuant to standard terms and conditions of sale, which can be found at the following address: freescale.com/salestermsandconditions. Freescale and the Freescale logo are trademarks of Freescale Semiconductor, Inc., Reg. U.S. Pat. & Tm. Off. SMARTMOS is a trademark of Freescale Semiconductor, Inc. All other product or service names are the property of their respective owners. 4 Freescale Semiconductor, Inc. Document Number: KTPFHWUG Rev.. /4