Freescale Semiconductor Users Guide DSPAUDIOEVM Users Guide This document contains information on a new product. Specifications and information herein are subject to change without notice. (c) Freescale Semiconductor, Inc., 2004. All rights reserved. DSPAUDIOEVMUG Rev. 2.4, 08/2004 Table of Contents Paragraph Number Page Number Chapter 1 Overview 1.1 1.2 1.2.1 1.2.2 1.3 1.3.1 1.3.2 1.4 1.5 1.6 1.7 1.8 Introduction ..................................................................................................................................................................1 DSPAUDIOEVM Architecture ....................................................................................................................................1 Daughterboard ........................................................................................................................................................1 Motherboard ...........................................................................................................................................................1 Debugger Interfaces .....................................................................................................................................................1 Suite56 OnCE Debugger ...................................................................................................................................1 Symphony Debugger Interface ..............................................................................................................................1 Microcontrollers ...........................................................................................................................................................2 Config MPU .................................................................................................................................................................2 Debug MPU ..................................................................................................................................................................2 Getting Started ..............................................................................................................................................................2 Running the Passthru Code ..........................................................................................................................................2 Chapter 2 Motherboard 2.1 2.2 2.2.1 2.2.2 2.2.3 2.2.4 2.2.4.1 2.2.4.2 2.2.4.3 2.2.4.4 2.2.4.5 2.2.4.6 2.3 2.3.1 2.3.2 2.3.3 2.3.4 2.4 2.4.1 2.4.2 2.4.3 2.5 2.5.1 2.5.1.1 2.5.2 2.5.3 2.5.3.1 2.5.3.2 Introduction ..................................................................................................................................................................3 Configuration Jumpers .................................................................................................................................................3 JP1/JP2 - S/PDIF Transmitter Output ....................................................................................................................3 JP3/JP4 - S/PDIF Receiver Input ..........................................................................................................................3 JP5 -- Pass-thru Header ........................................................................................................................................3 Debugger and Microcontroller Configuration .......................................................................................................4 PJ6 Debug MPU Crystal Selection ..................................................................................................................4 JP7 - MPU Program Control ...........................................................................................................................4 JP8 - SHI Debug Source Selection .................................................................................................................4 JP9 - OnCE/JTAG Debugger Source Selection ..............................................................................................4 JP10 - Config / Debug MPU Communication ................................................................................................5 JP11 - AUX Mode Input Source Selection .....................................................................................................5 Signal Headers ..............................................................................................................................................................5 P1 -- PPI Header ...................................................................................................................................................5 P2 -- OnCE Header ...............................................................................................................................................5 P3 -- ANALOG I/O ..............................................................................................................................................6 TP1 / TP2 Headers .................................................................................................................................................6 On-board Debugger Connections .................................................................................................................................6 J2 -- USB Interface ...............................................................................................................................................6 J3 -- RS232 Interface ............................................................................................................................................7 J4 -- Parallel Port Debugger Interface ..................................................................................................................7 External I/O ..................................................................................................................................................................7 J9 / J10 -- Microphone Inputs ...............................................................................................................................7 RV1/RV2 - Microphone Gain Control ............................................................................................................7 J11 / J12 -- Analog Outputs ..................................................................................................................................7 J13 -- Headphone Outputs ....................................................................................................................................8 SW2 / SW3 -- Channel Select ........................................................................................................................8 RV3 / RV4 -- Headphone Volume Select ......................................................................................................8 Chapter 3 DSP5636x DAUGHTERBOARD 3.1 3.2 3.3 3.4 3.5 DSPX36XDB1 .............................................................................................................................................................8 Mode Selection .............................................................................................................................................................8 Memory ........................................................................................................................................................................9 JP11 - Clock Selection .................................................................................................................................................9 Daughterboard Audio I / O and Clock Control Header ................................................................................................9 DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor TOC-1 Table Of Contents Paragraph Number 3.5.1 3.5.2 3.5.3 3.5.4 3.5.5 3.5.6 3.5.7 3.5.8 3.5.9 3.5.10 3.5.11 Page Number TIO0 - Timmer Port ..............................................................................................................................................9 JP1 - Synchronous/Asynchronous Clock Control ..................................................................................................9 JP2 - Single/Double Speed Clocking Control .....................................................................................................10 JP3 - FST_1 Connection ......................................................................................................................................10 JP4 - SCKT_1 Connection ..................................................................................................................................10 JP5 - FSR_1 Connection ......................................................................................................................................10 JP6 - SCKR_1 Connection ...................................................................................................................................10 JP7 - DSP MUTE Control ....................................................................................................................................10 JP8 - INT_0/SPDIF Error Flag Connection .........................................................................................................10 JP9 - SDO5/SDI0 Configuration .........................................................................................................................10 JP10 SDO4/SDI1 Configuration ..........................................................................................................................10 Chapter 4 DSP56371 DAUGHTERBOARD 4.1 4.2 4.3 4.4 4.5 4.5.1 4.5.2 4.5.3 4.5.4 4.5.5 4.5.6 4.5.7 4.5.8 4.5.9 4.5.10 4.5.11 4.5.12 4.6 4.7 4.8 DSPX37XDB1 ...........................................................................................................................................................11 Mode Selection ...........................................................................................................................................................11 Memory ......................................................................................................................................................................11 JP1 - Clock Selection .................................................................................................................................................11 Daughterboard Audio I / O and Clock Control Header ..............................................................................................12 JP3 - Synchronous/Asynchronous Clock Control ................................................................................................12 JP4 - Single/Double Speed Clocking Control .....................................................................................................12 JP5 - DSP MUTE Control ....................................................................................................................................12 JP6 - FSR_1 Connection ......................................................................................................................................12 JP7 - SCKR_1 Connection ...................................................................................................................................12 JP8 - SCKT_1 Connection ...................................................................................................................................12 JP9 - FST_1 Connection ......................................................................................................................................12 JP10 - SDO5/SDI0 Configuration .......................................................................................................................12 JP11 - SDO4/SDI1 Configuration .......................................................................................................................13 JP12 - Master Clock Configuration Control ........................................................................................................13 JP13 - SPDIF Lock LED Source Select ..............................................................................................................13 JP14 - SPDIF Lock Connection ..........................................................................................................................13 JP2 - I2C Boot ROM Enable ......................................................................................................................................13 P1 - ESAI Receive In .................................................................................................................................................13 P2 - ESAI Transmit Out .............................................................................................................................................13 Chapter 5 DSP56374 Daughterboard 5.1 5.2 5..3 5.4 5.5 5.5.1 5.5.2 5.5.3 5.5.4 5.5.5 5.5.6 5.5.7 5.5.8 5.5.9 5.5.10 5.5.11 5.5.12 DSPX374DB1 ............................................................................................................................................................14 Mode Selection ...........................................................................................................................................................14 Memory ......................................................................................................................................................................14 JP12 - Clock Selection ...............................................................................................................................................14 Daughterboard Audio I/O and Clock Control Header ................................................................................................15 JP1 - Synchronous/Asynchronous Clock Control ...............................................................................................15 JP2 - Single/Double Speed Clocking Control .....................................................................................................15 JP3 - FSR_1 Connection .....................................................................................................................................15 JP4 - SCKR_1 Connection ..................................................................................................................................15 JP5 - SDO5/SDI0 Configuration .........................................................................................................................15 JP6 - SDO4/SDI1 Configuration .........................................................................................................................15 JP7 - Watchdog Timer Connection .....................................................................................................................15 JP8 - SD03/SDI2 Configuration ..........................................................................................................................15 JP9 - FST/FST_1 Selection .................................................................................................................................16 JP10 - SCKT/SCKT_1 Selection ........................................................................................................................16 JP11 - DSP Mute Control ...................................................................................................................................16 JP13 - I2C Boot ROM Enable .............................................................................................................................16 DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. TOC-2 Freescale Semiconductor Table of Contents Paragraph Number 5.5.13 5.5.14 5.5.15 5.5.16 Page Number JP14 - S/PDIF Lock Control ...............................................................................................................................16 JP15 - Master Clock Control ...............................................................................................................................16 P1 - ESAI Receive In ..........................................................................................................................................16 P2 - ESAI Transmit Out ......................................................................................................................................16 Appendix A Schematics A.1 A.2 A.3 A.4 Motherboard Schematics ............................................................................................................................................17 DSP5636x Daughterboard Schematics ......................................................................................................................29 DSP56371 Daughterboard Schematics ......................................................................................................................33 DSP56374 Daughterboard Schematics ......................................................................................................................35 Appendix B EVM Bill of Materials DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor TOC-3 Table Of Contents Notes DSPAUDIOEVM Users Guide, Rev. 2.4 4 Freescale Semiconductor Introduction Chapter 1 Overview 1.1 Introduction The DSPAUDIOEVM Evaluation Board is used to demonstrate the abilities of the DSP5636x and DSP56367x families of Digital Signal Processors and to provide a hardware tool allowing the development of applications that use these devices. The DSPAUDIOEVM is designed for the following purposes: * To allow new users to become familiar with the features of the 56300 architecture: The tools and examples provided with the DSPAUDIOEVM facilitate evaluation of the feature set and the benefits of the family. * To serve as a platform for real-time software development: The tool suite enables the user to develop and simulate routines, download the software to on-chip or on-board RAM, and then run and debug the software using a debugger via the JTAG/OnCE port or the Serial Host Interface port. The breakpoint features of the OnCE port enable the user to easily specify break conditions and to execute user-developed software at full speed, until the break conditions are satisfied. The ability to examine and modify all user-accessible registers, memory, and peripherals through the OnCE or SHI port greatly facilitates the task of the developer. * To serve as a platform for hardware development: The hardware platform enables the user to connect external hardware peripherals. The on-board peripherals can be disabled, providing the user with the ability to reassign any and all of the DSP's peripherals. The OnCE port's unobtrusive design means that all of the memory on the board and on the DSP chip is available to the user. 1.2 DSPAUDIOEVM Architecture The DSPAUDIOEVM system is a development tool for authoring and testing of Digital Audio DSP software. It can also be used as a demo platform for Motorola's digital audio DSP technologies. The EVM system consists of a motherboard and a daughterboard (Ordered separately). 1.2.1 Daughterboard Several different daughterboards are available to support both 5636x and 5637x Digital Signal Processor families. Each daughterboard connects to the motherboard using two 96-pin connectors and, depending on the DSP, also contains external SRAM, FLASH or EEPROM. (For more information on specific daughterboards see their specific sections of this manual.) 1.2.2 Motherboard The motherboard has a variety of digital and analog audio I/O including: * 4 switchable S/PDIF inputs (2 optical and 2 Coaxial) * 4 simultaneous S/PDIF outputs(3 Coaxial and 1 Coaxial/Optical) * 12 analog output channels(6 stereo RCA type connectors) * 2 analog microphone inputs * 2 analog inputs (1 stereo RCA type connectors) * Headphone output (can mix any combination of analog signals using switch array) The motherboard uses an included external universal power supply (100-220VAC, 50-60 Hz). The power supply uses an IEC three pin power connector for the AC supply. The user must supply the AC cable required to connect power to the region specific AC power connection. 1.3 Debugger Interfaces 1.3.1 Suite56 OnCE TM Debugger The motherboard also supports multiple debugger interfaces. The Motorola high speed parallel port OnCE command converter tool is embedded in the EVM (no special cables are required). An IEEE 1284 Parallel port cable is included in the EVM kit for convenience. This OnCE interface can be used with the Motorola Suite56 tool set software and documentation available at http://www.metroworks.com/MW/Develop/Embedded/suite56.htm 1.3.2 Symphony Debugger Interface In addition to OnCE debugging, the motherboard includes a real time Symphony Debugger Interface (SDI). This debugger uses either a RS-232 or USB interface and allows SPI or I2C communication to the DSP from a PC for real time debugging and configuration of the DSP. The software and documentation to enable use of the SDI debugger are available on the web: http://www.motorola.com/dsp software download. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 1 Microcontrollers NOTE The SDI software is designed for users of ROM-based Software Architecture enabled DSPs. It cannot be used with generic or "B" ROM DSPs. 1.4 Microcontrollers There are two HC08 Motorola microcontrollers included in this EVM. They each have a dedicated function and are re-flashable in the event a field upgrade is required to the EVM. 1.5 Config MPU This is an HC908GP32 microcontroller and is pre-programmed with software to enable all of the on-board AKM components and clocking mode changes. This microcontroller also controls the mute functionality of the final audio outputs and the switching of the inputs sourced to the DSP daughterboard. 1.6 Debug MPU This is an HC908JB16 and is pre-programmed with software to allow communication (from a host PC to the DSP) via the serial RS232 and USB ports in conjunction with the supplied SDI debugger software. 1.7 Getting Started The first step to using your EVM system is to insert the daughterboard into the motherboard. The connectors are keyed to be inserted in only one direction. Connecting the power supply is the next step and we recommend always using a grounded AC power cord for both improved audio performance and safety. Connect the power supply to the AC power source first and then to the EVM at the round J1 connector. When the connector is properly seated, all five of the power LEDs located next to the J1 connector should be illuminated. 1.8 Running the Passthru Code Each daughterboard is shipped with a simple piece of passthru code stored in the on-board FLASH or EEPROM device. To run this code, ensure that the boot mode, controlled by switch SW1, is set to boot the DSP from the on-board FLASH or EEPROM device. See the daughterboard specific section for more information regarding bootmodes. For the above mentioned passthru function the source device is selected by setting the jumpers of JP11 (AUX in). The default setting from the factory configures the system to source audio data from the optical RX1 S/PDIF input. Alternate settings are described in Section 2.2.4.6, JP11 - AUX Mode Input Source Selection. The DSP passthru software passes the audio sourced from the selected input to the first 4 stereo analog outputs (AOUT 1-4). You can listen to these outputs by connecting an external amplifier and speaker to the RCA outputs or by using the built-in headphone amplifier. To use the headphone output select the desired analog output signals using the left and right channel select switches (SW2/SW3) and adjust the left and right volume sliders (RV3/RV4). DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 2 Freescale Semiconductor Introduction Chapter 2 Motherboard 2.1 Introduction This section will define the motherboard and daughterboard jumper and switch functionality including their default setting. The jumpers allow flexibility to re-route signals throughout the board, but only the simple jumper settings will be covered in this documentation. More advanced EVM users will be able to experiment with alternate configurations using this section in conjunction with the schematic included in Appendix A. The default jumper settings are indicated with the dark gray boxes. 2.2 Configuration Jumpers 2.2.1 JP1/JP2 - S/PDIF Transmitter Output The JP1 and JP2 headers are designed to allow selection of the S/PDIF output sources driven by the daughterboard (DSP), AKM 4101 S/PDIF transmitter, or AKM 4114 S/PDIF receiver. The DSP option on these jumpers is for future flexibility to allow for multiple S/PDIF signals to be sourced from the daughterboard directly. One of the S/PDIF signals (TXSD4, TXSD5, or TXSD6) can be directed to the TX4 output by selecting it, using JP2 and selecting the 4101TX4 option in the TX4 section of JP1. The 4114TX jumper option on TX4 is to allow direct connection of the S/PDIF receiver relay to S/PDIF out. The ADO jumper option on TX1 allows the S/PDIF transmitter (DAX port) of certain DSPs to be connected to the S/PDIF output connector. Table 2-1. JP1 / JP2 - S/PDIF Transmitter Output TX1 TX2 TX3 TX4 4101TX4 * * * * * * * * * * * * * * * * * * * TXSD4 4114TX DSP DSP DSP DSP JP1 2.2.2 TXSD6 * TXSD5 * 4101TX4 * 4101 * 4101 * 4101 * ADO * JP2 JP3/JP4 - S/PDIF Receiver Input The JP3 jumper allows for hardware configuration of the AKM 4114 S/PDIF receiver. The default setting is for software control mode and the AKM 4114 is configured by the Motorola HC908GP32 configuration microcontroller on the motherboard. The JP4 jumper controls the S/PDIF receiver input source to allow direct routing to the daughterboard using the DSP setting or selecting connection to the AKM 4114 (default). Table 2-2. JP3 / JP4 - S/PDIF Receiver Input IN=HI RX1 RX3 RX4 * * * * * * * * * * 4114 * DSP * 4114 * DSP * 4114 * DSP * 4114 * DSP * DIF0 * DIF2 * JP3 2.2.3 RX2 JP4 JP5 -- Pass-thru Header This jumper block is included to give convenient access to all the critical audio clocks and data lines. These jumpers can be removed to allow for rerouting of the audio signals within the board and to allow for expansion to external boards. As an example, this header could be used to connect to an external audio codec board for evaluation of the Motorola DSP with a specific audio codec. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 3 Configuration Jumpers Table 2-3. JP5 -- PASS-THRU Header * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * DACA DACB RX TX ADC DACB RX TX ADC DACA DACB RX ADC1 ADC2 TXS01 DACA1/2 TXS02 DACA3/4 TXSD3 DACA5/6 TXSD4 DACB 1/2 TXSD5 DACB3/4 TXCD6 DACB5/6 2.2.4 MUTE * DACA * ADC SERIAL I / O TX LRCLK RX02 BICK RX01 MCLK M U T E Debugger and Microcontroller Configuration Table 2-4. Debug and Crystal MPU Settings * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * CONFIG MPU OnCE USB/RS232 PARALLEL COM0 COM1 COM2 COM3 AUX1 AUX2 AUX3 AUX4 AUX5 RS232 * DEBUG MPU AUX IN=HI PPI PORT MPU COM PGM JTAG CONFIG MPU SHI DEBUG MPU PGM MD USB/PGM JB16 EXTAL JP6 2.2.4.1 JP7 JP8 JP9 JP10 JP11 PJ6 Debug MPU Crystal Selection The JP6 jumper is for selection of RS232 or USB communication when using the SDI debugger. Note that USB mode is not possible when using the Win NT software version. The RS232 position should be jumpered when the RS232 interface is used for the SDI debugger, and the USB/PGM position should be used when using the USB interface for the SDI debugger or when reprogramming of the Debug Micro is required. Only one of these jumpers should be connected at any one time. Use of the wrong jumper setting will cause SDI communication failure to occur or a reduction in the data transfer rate. 2.2.4.2 JP7 - MPU Program Control The JP7 jumpers are only used when the on-board microcontrollers are to be re-programmed. Placing a jumper in the PGM position places the selected microcontroller in program mode upon power-on. The microcontroller to be programmed is selected by placing a jumper in either the DEBUG MPU or CONFIG MPU positions. With no jumper in the PGM position, the other two jumpers are ignored. 2.2.4.3 JP8 - SHI Debug Source Selection The JP8 jumpers are for selection of various debugger modes. The default selection is for SDI debugger use. The PPI port can be used with legacy "PPP Development Interface" software and a PPI cable although the latest SDI debugger software is the preferred option for future upgradability and support. The third option, CONFIG MPU, is not currently supported on the EVM. Only one jumper position should be used at any one time. 2.2.4.4 JP9 - OnCE/JTAG Debugger Source Selection The JP9 jumpers are used for selection of alternative debugging tools such as the Suite 56 OnCE interface mentioned earlier. To use this, simply connect to a host PC with a parallel cable and have a jumper in the PARALLEL positions. The OnCE jumper option can be used if the user wishes to connect an external OnCE/JTAG debugger interface to the board. The USB/RS232 option is not currently supported and only one jumper should be inserted at a time. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 4 Freescale Semiconductor Signal Headers 2.2.4.5 JP10 - Config / Debug MPU Communication The JP10 jumpers provide a communication port between the debug microcontroller and the configuration microcontroller. When the SDI debugger is used and the AUX5 jumper is out, the SDI debugger interface controls the audio input source. The JP10 jumpers provide a communication port between the debug microcontroller and the configuration microcontroller. When the SDI debugger is used, and the AUX5 jumper is out, the SDI debugger interface controls the audio input source. To allow this, all JP10 jumpers should be populated. 2.2.4.6 JP11 - AUX Mode Input Source Selection The JP11 jumpers are present as an alternative to using the SDI debugger software to select between the various inputs available. If the AUX5 jumper is present then the following jumper settings will result in the input selection shown in Table 2-5 Table 2-5. JP11 Selections Input Selected Aux5 Aux4* Aux3 Aux2 Aux1 RX1 1 0 0 0 0 RX2 1 0 0 0 1 RX3 1 0 0 1 0 RX4 1 0 0 1 1 AIN1 1 0 1 0 0 SDI debugger selects input 0 X X X X * When the Aux5 jumper is present, the Aux4 jumper directly controls the mute functionality of the EVM motherboard. 2.3 Signal Headers These headers allow for external debugger connections, analog output signal measurement, and GPIO access. 2.3.1 P1 -- PPI Header The PPI header connections are to allow for backwards compatibility with existing PPI software tool set and to allow easy access to the SHI port connections from the motherboard. Note that when using PPI source, JP8 must have PPI Port jumper in place. Table 2-6. P1 -- PPI Header 2.3.2 NC(1) * * SS/HA2 GND * * SCK/SCL GND * * HREQ SDA * * MOSI / HA0 VDD * * MISO P2 -- OnCE Header The P2 OnCE header is for connection of an external OnCE/JTAG debugger tool to the OnCE/JTAG port of the DSP on the daughterboard. Further explanation of the OnCE/JTAG signal definition can be found in the DSP users guides. The P2 OnCE header is for connection of an external OnCE/JTAG debugger tool to the OnCE/JTAG port of the DSP on the daughterboard. Further explanation of the OnCE/JTAG signal definition can be found in the DSP users guides. Note that when using an external OnCE/JTAG debugger tool, the JP9 JTAG jumper should be in the "OnCE" position. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 5 On-board Debugger Connections Table 2-7. P2 -- OnCE Header 2.3.3 TDI(1) * * GND TDO * * GND TCK * * GND N/C * RESET * * TMS VDD * * N/C N/C * * N/C KEY P3 -- ANALOG I/O The Analog I/O header allows for analog access to input signals before the A/D (AIN1) op-amp stage and the output signals after the D/A (AO1-6) op-amp stage. This section is provided for ease of analog measurement and analog I/O connector relocation. Table 2-8. P3 -- Analog I / O AO6 AO5 AO4 AO3 AO2 AO1 AIN1 R L R L R L R L R L R L R L * * * * * * * * * * * * * * * * * * * * * * * * * * * * GND P3 2.3.4 TP1 / TP2 Headers TP1 and TP2 jumper blocks route to daughterboard for GPIO test points and future flexibility. On the DSP 56362/6/7 parts, as an example, these headers are connected to the DSP HDI08 port. See daughterboard schematics and appendix for device specifics. Table 2-9. TP1 Header -- GP TP1-8 TP1 * * TP8 TP2 * * TP7 TP3 * * TP6 TP4 * * TP5 Table 2-10. TP2 Header -- GP TP9-16 2.4 TP9 * * TP16 TP10 * * TP15 TP11 * * TP14 TP12 * * TP13 On-board Debugger Connections The connectors discussed in this section are the on-board debuggers. For specific information on using the debuggers, see the relevant User's Manuals. 2.4.1 J2 -- USB Interface This connector is used in conjunction with the SDI software to debug a DSP using USB communications. See Section 2.2.4, Debugger and Microcontroller Configuration for the proper jumper settings to use this interface. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 6 Freescale Semiconductor External I/O 2.4.2 J3 -- RS232 Interface This connector can be used for debugging or for in-field updating of the microcontroller code. To use this port for debugging, the SDI software must be used. See Section 2.2.4, Debugger and Microcontroller Configuration for the proper jumper settings to use this interface. 2.4.3 J4 -- Parallel Port Debugger Interface This connector is used for the on-board Suite56 Parallel Port Command Converter. In conjunction with the Suite56 software, this interface provides a high-speed debugger connection through the JTAG/OnCE port of the DSP. See Section 2.2.4, Debugger and Microcontroller Configuration for the proper jumper settings to use this interface. 2.5 External I/O 2.5.1 J9 / J10 -- Microphone Inputs There are two microphone inputs available at 1/8inch microphone connectors J9 and J10 labeled MIC1 and MIC2. These can also be monitored via headphones by switching MIC1 and MIC2 on. The input levels of these can be adjusted with the potentiometers at RV1 and RV2 labeled MIC1 LEVEL and MIC2 LEVEL. These signals are connected to the ADC2 A/D converter. NOTE If 1/4 inch to 1/8 inch adaptors are used for the microphone connection use only stereo-stereo or mono-mono style adapters. Stereo-mono or mono-stereo adapters will result in a short of the incoming audio signal to ground. 2.5.1.1 RV1/RV2 - Microphone Gain Control These potentiometers control the input levels for MIC1 and MIC2 respectively. To prevent damage, always start with these controls in a low setting, i.e., twisted left. These inputs can be monitored directly, using the on-board headphone amplifier. 2.5.2 J11 / J12 -- Analog Outputs Fixed pre-amp outputs (Variable through Digital Volume control on the DSP) are provided for 12 channels of output. These RCA connections can be fed into a variable or fixed amplifier stage. Care should be taken to verify signal integrity before connecting to large fixed amplifiers to avoid audible noise or speaker damage. These outputs are located at J11 and J12. Table 2-11. J11 AOUT1 AOUT2 AOUT3 White White White Red Red Red Table 2-12. J12 AOUT4 AOUT5 AOUT6 White White White Red Red Red If using the Software Architecture, the analog outputs correspond to the following: AOUT1 WHITE AOUT1 RED Left Main Right Main AOUT2 WHITE AOUT2 RED Left Surround Right Surround AOUT3 WHITE AOUT3 RED Center Subwoofer AOUT4 WHITE AOUT4 RED Left Back Right Back DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 7 DSPX36XDB1 AOUT5 WHITE AOUT5 RED Left Secondary Right Secondary AOUT6 WHITE AOUT6 RED Unassigned Unassigned 2.5.3 J13 -- Headphone Outputs These channels can also be monitored with the on-board headphone amplifier. The channel listened to is selected via switches SW2 and SW3. Moving the switch to the right will enable the corresponding channel. There are right and left volume sliders (RV3 and RV4) to allow variations in volume level and balance control. Headphones should be plugged in to the J13 1/8-inch headphone connector. 2.5.3.1 SW2 / SW3 -- Channel Select These switches control what is routed to the on-board headphone amplifier. Moving the switch to the right will enable the corresponding channel. Multiple switches/channels can be enabled at one time, and the signals will be summed into the corresponding headphone channel. 2.5.3.2 RV3 / RV4 -- Headphone Volume Select These sliders allow for volume and balance adjustment for the headphone amplifier. To help prevent damage to headphones or hearing, always start with the sliders in a low-volume position. Chapter 3 DSP5636x DAUGHTERBOARD 3.1 DSPX36XDB1 This daughterboard supports the 56362, 56364, 56366, and 56367. The following sections describe the jumper and switch settings available on the DSPX36XDB1. A schematic for this daughterboard can be found in Appendix A. 3.2 Mode Selection Various boot-up modes can be selected via the MODE pins and pins PB13 and PB14 settings can be determined using switch bank SW1. Switch position "ON"= signal high. Table 3-1 shows the modes available for the 56362/366/367. Table 3-2 shows the modes available for the 56364. See device-specific user manual for full details of each boot mode. Table 3-1. Mode Selection for 56362/366/367 MODD MODC MODB MODA PB14* PB13* Mode 0 0 0 0 X X Expanded mode (execute from $C00000) 0 0 0 1 X X Bootstrap from external FLASH 0 0 1 0 0 1 Bootstrap SA in SPI mode* 0 0 1 0 1 1 Bootstrap SA in I2C mode* 0 1 0 1 X X Boot from SHI (slave SPI mode) 0 1 1 1 X X Boot from SHI (slave I2C mode) 1 0 0 0 X X Expanded mode (execute from $008000) 1 1 0 0 X X Bootstrap in HDI08 ISA mode 1 1 0 1 X X Bootstrap in HDI08 HC11 mode 1 1 1 0 X X Bootstrap in HDI08 8051 mode 1 1 1 1 X X Bootstrap in HDI08 69302 mode * These modes are only applicable to DSPs which have the embedded ROM based Software Architecture (SA). NOTE All other modes are reserved and should not be used. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 8 Freescale Semiconductor Memory Table 3-2. Mode Selection for 56364 3.3 MODD MODC MODB MODA Mode 0 X 0 0 Jump to PROM starting address 0 X 0 1 Bootstrap from byte-wide memory 0 X 1 0 Reserved 0 X 1 1 Reserved for Burn-in testing 1 X 0 0 Reserved 1 X 0 1 Bootstrap from SHI (slave SPI mode) 1 X 1 0 Bootstrap from SHI (slave I2C mode, clock freeze enabled) 1 X 1 1 Bootstrap from SHI (slave I2C mode, clock freeze disabled Memory The daughterboard includes three 128Kx8 SRAM (one 128Kx8 SRAM for the 56364 daughterboard). There is also a 512Kx8 FLASH device resident on the board. From factory the FLASH is programmed with an audio passthru code to allow simple verification of initial board operations. See Section 1.8, Running the Passthru Code for an explanation of running the passthru code. 3.4 JP11 - Clock Selection Jumper bank JP11 allows for the following clocking modes: OSC - Clock DSP from canned oscillator at U7 (not Populated) XTAL - Clock DSP from 24.576MHz crystal at X1 (default mode) EXT - Clock DSP from motherboard 24.576MHz clock source Only one of the JP11 options should be populated at the same time. 3.5 Daughterboard Audio I / O and Clock Control Header INTO SDO4/SDI1 DSP MUTE SDO5/SDI0 SCKR_1 * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * A B C D E F G H I J K L M N O P Q JP5 JP6 JP7 JP8 TI0 3.5.1 JP1 FST_1 SCKT_1 * Sng/Dbl * TIO0 FSR_1 Sync/Async Table 3-3. Daughterboard Audio I / O and Clock Control Header JP2 JP3 JP4 JP9 JP10 TIO0 - Timmer Port This is connected directly to the TIO0 pin on the DSP. 3.5.2 JP1 - Synchronous/Asynchronous Clock Control This jumper set controls whether or not the DSP is in synchronous or asynchronous mode. Position B allows the DSP GPIO (pin PB9) to choose the mode. Position C forces the mode to be asynchronous, and no jumper forces synchronous mode. In synchronous mode FST is connected to FSR, and SCKT is connected to SCKR on the ESAI port of the DSP. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 9 Daughterboard Audio I / O and Clock Control Header 3.5.3 JP2 - Single/Double Speed Clocking Control This jumper set controls whether or not the motherboard is in single or double speed mode. Position D forces the motherboard into double speed mode. Position E allows the DSP GPIO pin PB11 to control the mode (e.g., through a PPP), and no jumper forces single speed mode. An example of this signal's use is for decoding of DTS 96/24 content. In this mode, it is required to update the masterclock ration expectation in the D/A converters and S/PDIF transmitters because the DTS 96/24 decoder doubles the audio sample rate as part of the decoding process. 3.5.4 JP3 - FST_1 Connection This set of jumpers determines which frame sync clock source is used for the AKM DAC4_6. The F position directs the ESAI_0 FST signal to DAC4_6. Position G directs the ESAI_1 FST signal to DAC4_6, and population of both jumpers will synchronize/short the two ESAI port FST lines. NOTE Position F should always be populated when using a 56362 or 56364 daughterboard. 3.5.5 JP4 - SCKT_1 Connection This set of jumpers determines which serial clock source is used for the AKM DAC4_6. Position H directs the ESAI_0 SCKT signal to DAC4_6, position I directs the ESAI_1 SCKT signal to DAC4_6 and population of both jumpers will synchronize/short the two ESAI port SCKT lines. NOTE Position H should always be populated when using a 56362 or 56364 daughterboard. 3.5.6 JP5 - FSR_1 Connection This jumper connects/shorts the FSR and FSR_1 signals together. No jumper means that the FSR_1 signal stops at the header. 3.5.7 JP6 - SCKR_1 Connection This jumper connects/shorts the SCKR and SCKR_1 signals together. No jumper means that the SCKR_1 signal stops at the header. 3.5.8 JP7 - DSP MUTE Control This jumper controls the mute signal when used in conjunction with the Software Architecture or GPIO control. With the jumper in place, the mute control is connected to the DSP GPIO pin PB12. No jumper means that mute functionality will only be controlled by the motherboard. 3.5.9 JP8 - INT_0/SPDIF Error Flag Connection This jumper connects the error flag signal from the AKM 4114 to the DSP GPIO pin PB15. This allows the DSP to be informed of the status of the AKM 4114 S/PDIF receiver. If the connection is not desired this jumper can be removed. 3.5.10 JP9 - SDO5/SDI0 Configuration This jumper set controls the signal connections of SDO5/SDI0. Depending on the ESAI setting in the DSP, this pin can be configured as an input or an output. A jumper in position N feeds the SDI0 signal from the ADC2 microphone source. A jumper in the O position feeds the SDO5 signal to DAC4_6. 3.5.11 JP10 SDO4/SDI1 Configuration This jumper set controls the input source for SDI1. A jumper in the P position feeds the SDI1 signal from the AKM 4114 S/PDIF receiver. A jumper in the Q position feeds the SDI1 signal from ADC1. There is no available jumper setting for use of the SDO4 signal. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 10 Freescale Semiconductor DSPX37XDB1 Chapter 4 DSP56371 DAUGHTERBOARD 4.1 DSPX37XDB1 The following section describes the jumper and switch options for the DSPX37XDB1. The schematic for the daughterboard can be found in Section A, Schematics for clarification of all DSP connections. NOTE Two versions of the DSPX37XDB1 exist: Rev C and Rev D. You can determine the revision by looking at the bottom side of the board just below the serial number. This section documents Rev D of the board which is the current production revision. While the jumper sets are numbered differently between the revisions, the functional descriptions remain the same. The only functional difference between revisions is the addition of the boot from on-board serial EEPROM available only on the Rev D board. Schematics for the Rev C board are not included in this manual but are available upon request. Table 4-1. Mode Selection MODD MODC MODB MODA TP14 TP13 Mode 0 0 1 0 0 1 Bootstrap SA in SPI mode 0 0 1 0 1 1 Bootstrap SA in I2C mode 0 1 0 1 X X Bootstrap from SHI (slave SPI) mode 0 1 1 1 X X Bootstrap from SHI (slave I2C) mode 1 0 0 1 X X Bootstrap from SHI (serial EEPROM) mode NOTE All other modes are reserved and should not be used. 4.2 Mode Selection Various boot-up modes can be selected via the MODE pins and pins TP13 and TP14 settings can be determined using switch bank SW1. Switch position "ON"= signal high. See the DSP56371 user manual for full details. 4.3 Memory 2 The DSPX37XDB1 daughterboard includes one 1Mx8 EEPROM accessed by an I C-compatible bus. This memory comes pre-programmed with a basic audio passthru code to allow simple verification of the initial board operations. See Section 1.8, Running the Passthru Code for more details. 4.4 JP1 - Clock Selection Jumper bank JP1 allows for the following clocking modes: OSC - Clock DSP from canned oscillator at U7 (not Populated) XTAL - Clock DSP from 24.576MHz crystal at X1 (default mode) EXT - Clock DSP from motherboard 24.576MHz clock source Only one of the JP1 options should be populated at the same time. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 11 Daughterboard Audio I / O and Clock Control Header 4.5 Daughterboard Audio I / O and Clock Control Header 4114 INT0 = DSP PF6 LED = DSP PF6 LED = 4114 INT0 SD04/SD11 * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * A B C D E F G H I J K L M N O P Q R S T U JP4 JP5 JP6 JP7 JP8 FST_1 JP9 JP10 4114MCLK PF8MCLK JCLT_1 * JP3 4.5.1 SD05/SD10 SCKR_1 * SCKT_1 FSR_1 * SNG/DBL DSP MUTE SYNC/ASYNC Table 4-2. Daughterboard Audio I/O and clock Control Header JP11 JP12 JP13 JP14 JP3 - Synchronous/Asynchronous Clock Control This jumper set controls whether or not the DSP is in synchronous or asynchronous mode. Position A allows the DSP GPIO (pin PB1) to choose the mode. Position B forces the mode to be asynchronous, and no jumper forces synchronous mode. In synchronous mode FST is connected to FSR, and SCKT is connected to SCKR on the ESAI port of the DSP. 4.5.2 JP4 - Single/Double Speed Clocking Control This jumper set controls whether or not the motherboard is in single or double speed mode. Position C forces the motherboard into double speed mode. Position D allows the DSP GPIO pin PE10 to control the mode (e.g., through a PPP), and no jumper forces single speed mode. An example of this signal's use is for decoding of DTS 96/24 content. In this mode, it is required to update the masterclock ration expectation in the D/A converters and S/PDIF transmitters because the DTS 96/24 decoder doubles the audio sample rate as part of the decoding process. 4.5.3 JP5 - DSP MUTE Control This jumper controls the mute signal when used in conjunction with the Software Architecture or GPIO control. With the jumper in place, the mute control is connected to the DSP GPIO pin PE11. No jumper means that mute functionality will only be controlled by the motherboard. 4.5.4 JP6 - FSR_1 Connection This jumper connects/shorts the FSR and FSR_1 signals together. No jumper means that the FSR_1 signal stops at header P1. 4.5.5 JP7 - SCKR_1 Connection This jumper connects/shorts the SCKR and SCKR_1 signals together. No jumper means that the SCKR_1 signal stops at header P1. 4.5.6 JP8 - SCKT_1 Connection This set of jumpers determines which serial clock source is used for the AKM DAC4_6. Position I directs the ESAI_0 SCKT signal to DAC4_6, position H directs the ESAI_1 SCKT signal to DAC4_6 and population of both jumpers will synchronize/short the two ESAI port SCKT lines. 4.5.7 JP9 - FST_1 Connection This set of jumpers determines which frame sync clock source is used for the AKM DAC4_6. The K position directs the ESAI FST signal to DAC4_6. Position J directs the ESAI_1 FST signal to DAC4_6, and population of both jumpers will synchronize/short the two ESAI port FST lines. 4.5.8 JP10 - SDO5/SDI0 Configuration This jumper set controls the signal connections of SDO5/SDI0. Depending on the ESAI setting in the DSP, this pin can be configured as an input or an output. A jumper in position L feeds the SDI0 signal from the ADC2 microphone source. A jumper in the M position feeds the SDO5 signal to DAC4_6. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 12 Freescale Semiconductor JP2 - I2C Boot ROM Enable 4.5.9 JP11 - SDO4/SDI1 Configuration This jumper set controls the input source for SDI1. A jumper in the N position feeds the SDI1 signal from the AKM 4114 S/PDIF receiver. A jumper in the O position feeds the SDI1 signal from ADC1. There is no available jumper setting for use of the SDO4 signal. 4.5.10 JP12 - Master Clock Configuration Control This set of jumpers allows for numerous routing options of the master clock. A jumper in the P position feeds the master clock from the AKM4114 SPDIF receiver to the ESAI HCKT, HCKR and ACI pins as well as the AKM4114 SPDIF transmitter, ADC, DAC1-3 and DAC4-6. A jumper in the R position connects/shorts the HCKT_1 signal to the HCKT, HCKR and ACI signals. Jumper positions P and R may be used together to feed the AKM4114 SPDIF master clock to the HCKT_1 input. Jumper position Q is reserved for future expansion. 4.5.11 JP13 - SPDIF Lock LED Source Select This jumper set controls the source for the SPDIF lock LED, D6, on the motherboard. A jumper in location T allows connects LED, D6, to the AKM4114 lock signal output. Jumper position S is reserved for future expansion. 4.5.12 JP14 - SPDIF Lock Connection This jumper connects the AKM4114 lock signal to GPIO signal PF6 if jumper set JP13 has a jumper in location T. 4.6 JP2 - I2C Boot ROM Enable This set of jumpers allows the on-board serial EEPROM to be removed from the SHI bus. Jumper location V connects the serial data line to the DSP MISO signal and location W connects the serial clock line to the DSP SCK signal. Both jumpers must be placed to use bootstrap mode 9. 4.7 P1 - ESAI Receive In This header allows for external connections to ESAI and ESAI_1 receiver signals and GPIO. The odd row is ground while the even row of pins is signal. This provides ground isolation between each signal when used with ribbon cable connectors. 4.8 P2 - ESAI Transmit Out This header allows for external connections to ESAI and ESAI_1 transmitter signals and GPIO. The odd row is ground while the even row of pins is signal. This provides ground isolation between each signal when used with ribbon cable connectors. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 13 DSPX374DB1 Chapter 5 DSP56374 Daughterboard 5.1 DSPX374DB1 This daughterboard supports all versions of the 56374. The following sections describe the jumper and switch options available on the DSPX374DB1. The schematic for this daughterboard can be found in Appendix A. 5.2 Mode Selection Various bootstrap modes can be selected via switch bank SW1. Table 5-1 shows the switch configuration for each available mode. See the 56374 User's Manual for full details on each mode. Table 5-1. Mode Selection MODD MODC MODB MODA Mode 0 0 1 0 Bootstrap SA in SPI mode 0 1 0 1 Bootstrap from SHI (slave SPI) mode 0 1 1 0 Bootstrap from SHI (slave I2C, HCKFR=1) mode 0 1 1 1 Bootstrap from SHI (slave I2C, HCKFR=0) mode 1 0 0 1 Bootstrap from SHI (serial EEPROM, HCKFR=1) mode 1 0 1 1 Bootstrap from SHI (serial EEPROM) mode 1 1 0 0 Bootstrap from SHI (serial SPI EEPROM) mode 1 1 1 0 Bootstrap SA (default HLX) in SPI mode 1 1 1 0 Bootstrap SA in I2C (HCKFR=0) mode 1 1 1 1 Bootstrap SA in I2C (HCKFR=1) mode NOTE All other modes are reserved and should not be used. 5.3 Memory 2 The DSPX37XDB1 daughterboard includes one 1Mx8 EEPROM accessed by an I C-compatible bus. This memory comes pre-programmed with a basic audio passthru code to allow simple verification of the initial board operations. See Section 1.8, Running the Passthru Code for more details. 5.4 JP12 - Clock Selection Jumper bank JP12 allows for the following clocking modes: XTAL - Clock DSP from 24.576MHz crystal at X1 using the DSP's internal oscillator EXT - Clock DSP from motherboard 24.576MHz clock source OSC - Clock DSP from canned oscillator at U4 (not populated) When using the XTAL clocking mode both XTAL jumpers must be placed (this is the default mode of operation). When using other clocking modes, both XTAL jumpers must be removed. Only one clocking mode should be used at the same time DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 14 Freescale Semiconductor Daughterboard Audio I/O and Clock Control Header 5.5 Daughterboard Audio I/O and Clock Control Header DSP MUTE SD03/SD12 WDT/RESET SD04/SD11 * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * A B C D E F G H I J K L M N O P Q R JP3 JP4 JP2 JP5 JP6 JP7 JP8 FST_1 FST SCKT_1 SCKT SCKR_1 * JP1 5.5.1 SD05/SD10 FSR_1 SNG/DBL SYNC/ASYNC Table 5-2. Daughterboard Audio I/O and clock Control Header JP9 JP10 JP11 JP1 - Synchronous/Asynchronous Clock Control This jumper set controls whether or not the DSP is in synchronous or asynchronous mode. Position A allows the DSP GPIO (pin PG7) to choose the mode. Position B forces the mode to be asynchronous and no jumper forces synchronous mode. In synchronous mode FST is connected to FSR and SCKT is connected to SCKR on the ESAI port of the DSP. 5.5.2 JP2 - Single/Double Speed Clocking Control This jumper pair controls whether or not the motherboard is in single or double speed mode. Position C forces the motherboard into double speed mode. Position D allows the DSP GPIO (pin PG6) to control the mode and no jumper forces single speed mode. This jumper is useful when implementing a DTS 96/24 decoder. 5.5.3 JP3 - FSR_1 Connection This jumper connects/shorts the FSR and FSR_1 signals together. No jumper means that the FSR_1 signal stops at header P1. 5.5.4 JP4 - SCKR_1 Connection This jumper connects/shorts the SCKR and SCKR_1 signals together. No jumper means that the SCKR_1 signal stops at header P1. 5.5.5 JP5 - SDO5/SDI0 Configuration This jumper pair controls the input source for SDI0. A jumper in position G feeds the SDI0 signal from the AKM 4114 S/PDIF receiver. A jumper in position H feeds the SDI0 signal from ADC1. There is no available jumper setting for use of the SDO5 signal. 5.5.6 JP6 - SDO4/SDI1 Configuration This jumper set controls the signal connections of SDO4/SDI1. Depending on the ESAI configuration in the DSP, this signal can be configured as an output (SDO4) or an input (SDI1). A jumper in position I feeds the SDI1 signal from ADC1. A jumper in position J feeds the SDO4 signal to DAC4-6. 5.5.7 JP7 - Watchdog Timer Connection This jumper connects the on-chip watchdog timer output to the DSP reset circuit. By placing a jumper in position K the on-chip watchdog timer can generate a hardware reset to the DSP. If no jumper is placed the watchdog timer is removed from the reset circuit. 5.5.8 JP8 - SD03/SDI2 Configuration This jumper pair controls the signal connections of SDO3/SDI2. Depending on the ESAI configuration in the DSP, this signal can be configured as an output (SDO3) or an input (SDI1). A jumper in position L feeds the SDI1 signal from the ADC2 microphone source. A jumper in position M feeds the SDO3 signal to DAC 4-6. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 15 Daughterboard Audio I/O and Clock Control Header 5.5.9 JP9 - FST/FST_1 Selection This jumper set determines which frame sync clock source is used for DAC4-6. A jumper in position O directs the ESAI FST signal to DAC4-6. A jumper in position N directs the ESAI_1 FST signal to DAC4-6. If both jumpers are placed this will connect/short the FST and FST_1 signals together. 5.5.10 JP10 - SCKT/SCKT_1 Selection This jumper pair controls which serial clock source is used for DAC4-6. A jumper in position Q directs the ESAI SCKT signal to DAC4-6. A jumper in position P directs the ESAI_1 SCKT signal to DAC4-6. If both jumpers are placed this will connect/short the SCKT and SCKT_1 signals together. 5.5.11 JP11 - DSP Mute Control This jumper controls the mute signal when used in conjunction with the Software Architecture or GPIO control. With the jumper in place the mute control is connected to the DSP GPIO (pinPG5). No jumper means that the mute functionality will only be controlled by the motherboard. 5.5.12 JP13 - I2C Boot ROM Enable This set of jumpers allows the on-board serial EEPROM to be removed from the SHI bus. Jumper location W connects the serial data line to the DSP MISO signal and location X connects the serial clock line to the DSP SCK signal. Both jumpers must be placed to use bootstrap modes 9 or B. 5.5.13 JP14 - S/PDIF Lock Control This jumper is designed for future compatibility. For proper operation a jumper should be placed in position U. 5.5.14 JP15 - Master Clock Control This jumper pair allows the DSP to supply a master transmit clock from either ESAI port via the HCKT signal. A jumper in position S sources the transmit master clock from the AKM 4114 S/PDIF receiver, while a jumper in position T sources the transmit master clock from either HCKT or HCKT_1 (these signals are connected/shorted together in either jumper position). 5.5.15 P1 - ESAI Receive In This header allows for external connections to ESAI and ESAI_1 receiver signals and GPIO. The odd row is ground while the even row of pins is signal. This provides ground isolation between each signal when used with ribbon cable connectors. 5.5.16 P2 - ESAI Transmit Out This header allows for external connections to ESAI and ESAI_1 transmitter signals and GPIO. The odd row is ground while the even row of pins is signal. This provides ground isolation between each signal when used with ribbon cable connectors. DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 16 Freescale Semiconductor Motherboard Schematics Appendix A Schematics Motherboard Schematics M A.1 Figure A-1. Motherboard Block Diagram DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 17 M Motherboard Schematics Figure A-2. Motherboard DACA 1-3 DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 18 Freescale Semiconductor M Motherboard Schematics Figure A-3. Motherboard DACB 4-6 DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 19 M Motherboard Schematics Figure A-4. Motherboard ADC 1-2 DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 20 Freescale Semiconductor M Motherboard Schematics Figure A-5. Motherboard Configuration MPU DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 21 M Motherboard Schematics Figure A-6. Motherboard Headphone Amplifier and Mixer DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 22 Freescale Semiconductor M Motherboard Schematics Figure A-7. Motherboard SPDIF DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 23 M Motherboard Schematics Figure A-8. Motherboard PPI and JTAG Command Converter DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 24 Freescale Semiconductor M Motherboard Schematics Figure A-9. Motherboard JTAG/PPI Debugger MPU DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 25 M Motherboard Schematics Figure A-10. Motherboard DSP Daughterboard Connectors DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 26 Freescale Semiconductor M Motherboard Schematics Figure A-11. Motherboard Power and MCLK Lost Detect and Systems Reset DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 27 M Motherboard Schematics Figure A-12. Motherboard Notes and Tables DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 28 Freescale Semiconductor DSP5636x Daughterboard Schematics DSP5636x Daughterboard Schematics M A.2 Figure A-13. DSP5636x Daughterboard DSP Connections for DSP56362/366/367 DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 29 M DSP5636x Daughterboard Schematics Figure A-14. DSP5636x Daughterboard DSP Connections for DSP56364 DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 30 Freescale Semiconductor M DSP5636x Daughterboard Schematics Figure A-15. DSP5636x Daughterboard External Memory DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 31 M DSP5636x Daughterboard Schematics Figure A-16. DSP5636x Daughterboard Connectors DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 32 Freescale Semiconductor DSP56371 Daughterboard Schematics DSP56371 Daughterboard Schematics M A.3 Figure A-17. DSP56371 Daughterboard DSP Connections DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 33 M DSP56371 Daughterboard Schematics Figure A-18. DSP56371 Daughterboard Connectors DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 34 Freescale Semiconductor DSP56374 Daughterboard Schematics DSP56374 Daughterboard Schematics S A.4 Figure A-19. DSP56374 Daughterboard 80-pin DSP Connections DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 35 S DSP56374 Daughterboard Schematics Figure A-20. DSP56374 Daughterboard 52-pin DSP Connections DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 36 Freescale Semiconductor S DSP56374 Daughterboard Schematics Figure A-21. DSP56374 Daughterboard Connectors DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 37 DSP56374 Daughterboard Schematics Appendix B EVM Bill of Materials Table B-1. EVM Bill of Materials RefDe s Value Part Number C1 470UF EEV-FC1E471P Aluminum Electrolytic Capacitor/FC Series 470UF 25V Panasonic C2 470UF EEV-FC1E471P Aluminum Electrolytic Capacitor/FC Series 470UF 25V Panasonic C3 470UF EEV-FC1E471P Aluminum Electrolytic Capacitor/FC Series 470UF 25V Panasonic C4 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C5 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C6 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C7 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C8 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C9 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C10 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C11 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C12 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C13 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C14 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C15 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C16 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C17 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C18 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C19 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C20 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C21 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C22 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C23 4.7UF T491A475M016AS C24 0.1UF C25 Description Manufacturer 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C26 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C27 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C28 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C29 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C30 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C31 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C32 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C33 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C34 18PF C080COG500-180JNE 18 PF 5% COG 0805 50V Ceramic Chip Capacitor Venkel C35 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C36 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C37 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C38 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C39 4.7UF T491A475M016AS C40 0.1UF C41 18PF C42 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C43 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C44 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C45 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C46 18PF C080COG500-180JNE 18 PF 5% COG 0805 50V Ceramic Chip Capacitor Venkel 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C080COG500-180JNE 18 PF 5% COG 0805 50V Ceramic Chip Capacitor Venkel DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 38 Freescale Semiconductor DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials C47 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C48 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C49 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C50 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C51 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C52 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C53 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C54 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C55 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C56 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C57 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C58 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C59 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C60 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C61 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C62 47PF C080COG101-470JNE 47 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C63 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C64 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C65 47PF C080COG101-470JNE 47 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C66 18PF C080COG500-180JNE 18 PF 5% COG 0805 50V Ceramic Chip Capacitor Venkel C67 47PF C080COG101-470JNE 47 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C68 47PF C080COG101-470JNE 47 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C69 7PF C080COG500-7R0JNE 7 PF 5% COG 0805 50V Ceramic Chip Capacitor Venkel C70 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C71 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C72 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C73 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C74 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C75 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C76 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C77 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C78 47PF C080COG101-470JNE 47 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C79 47PF C080COG101-470JNE 47 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C80 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C81 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C82 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C83 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C84 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C85 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C86 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C87 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C88 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C89 4.7UF T491A475M016AS C90 0.1UF C0805X7R500-104KNE C91 NONE Do Not Install C92 NONE Do Not Install C93 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C94 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C95 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C96 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C97 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 39 DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials C98 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C99 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C100 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C101 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C102 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C103 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C104 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C105 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C106 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C107 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C108 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C109 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C110 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C111 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C112 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C113 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C114 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C115 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C116 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C117 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C118 4.7UF T491A475M016AS C119 470PF C120 C121 C122 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C123 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C124 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C125 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C126 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C127 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C128 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C129 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C130 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C131 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C132 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C133 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C134 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C135 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C136 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C137 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C138 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C139 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C140 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C141 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C142 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C143 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C144 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C145 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C146 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C147 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C148 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 40 Freescale Semiconductor DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials C149 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C150 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C151 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C152 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C153 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C154 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C155 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C156 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C157 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C158 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C159 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C160 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C161 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C162 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C163 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C164 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C165 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C166 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C167 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C168 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C169 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C170 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C171 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C172 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C173 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C174 4.7UF T491A475M016AS 4.7UF Tantalum Chip Capacitor 16V 3216 Kemet C175 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C176 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C177 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C178 0.1UF C0805X7R500-104KNE 0.1UF10% X7R 0805 50V Ceramic Chip Capacitor Venkel C179 470PF C080COG101-471JNE 470 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel C180 150PF C080COG101-151JNE 150 PF 5% COG 0805 100V Ceramic Chip Capacitor Venkel D1 SSL-LX15IC Led Red Water Clear SOT-23 Lumex D2 SSL-LX15IC Led Red Water Clear SOT-23 Lumex D3 SSL-LX15IC Led Red Water Clear SOT-23 Lumex D4 SSL-LX15IC Led Red Water Clear SOT-23 Lumex D5 SSL-LX15IC Led Red Water Clear SOT-23 Lumex D6 SSL-LX15IC Led Red Water Clear SOT-23 Lumex D7 SSL-LX15IC Led Red Water Clear SOT-23 D8 BAS16 High Conductance Ultra Fast Diode SOT23 Fairchild D9 BAS16 High Conductance Ultra Fast Diode SOT23 Fairchild D10 BAS16 High Conductance Ultra Fast Diode SOT23 Fairchild D11 BAS16 High Conductance Ultra Fast Diode SOT23 Fairchild J1 LN-0507B 5 Pin Right Angle DIN Connector Vimex J2 5075BR-04 Universal Serial Bus, 4 position, female connector-blacck Vimex J3 205A-09FGTBBC3 9 Pin Female Right Angle D-Sub Connector .318" Vimex J4 205A-25MGTBBC3 25 Pin Male Right Angle D-Sub Connector .318" Vimex J5 73-096114-300 J6 JE040060BN 96-pin 3-row DIN41612 Female Type C Straight Connector .110" Tail Length 2 X 2 RCA Jack All Black Nickel Plated Lumex Teka Vimex DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 41 DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials J7 73-096114-300 96-pin 3-row DIN41612 Female Type C Straight Connector .110" Tail Length Teka J8 JE040060TN 2 X 2 RCA Jack Top-White/Yellow Bottom Red/Yellow - Nickel Vimex J9 SCJ-0367 3.5 MM Stereo Phone Jack Vimex J10 SCJ-0367 3.5 MM Stereo Phone Jack Vimex J11 JE0600610N 3 X 2 RCA Jack Top White Bottom Red-Nickel Vimex J12 JE0600610N 3 X 2 RCA Jack Top White Bottom Red-Nickel Vimex J13 SCJ-0367 3.5 MM Stereo Phone Jack Vimex JP1-2 AFM2-26SG6MM/3.55MM 13 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex JP3-4 AFM2-20SG6MM/3.55MM 10 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex JP5 AFM2-64SG6MM/3.55MM 32 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex JP6-11 AFM2-40SG6MM/3.55MM 20 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex P1 AFM2-10SG6MM/3.55MM 5 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex P2 AFM2-14SG6MM/3.55MM 7 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex P3 AFM2-28SG6MM/3.55MM 14 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex Q1 NONE Do Not Install Q2 NONE Do Not Install Q3 NONE Do Not Install Q4 NONE Do Not Install Q5 FMMTA56 PNP Transistor SOT23 Q6 MMBF170 Power MOSFET 500 mAmps, 60V SOT-23 ON Semiconductor Q7 MMBF170 Power MOSFET 500 mAmps, 60V SOT-23 ON Semiconductor Q8 FMMTA56 PNP Transistor SOT23 Q9 MMBF170 Power MOSFET 500 mAmps, 60V SOT-23 ON Semiconductor Q10 MMBF170 Power MOSFET 500 mAmps, 60V SOT-23 ON Semiconductor Q11 FMMTA56 PNP Transistor SOT23 Zetex Q12 FMMTA56 PNP Transistor SOT23 Zetex Q13 FMMTA06 NPN Transistor SOT23 Zetex Q14 FMMTA06 NPN Transistor SOT23 Zetex Q15 FZT796ATA PNP Transistor SOT223 Zetex Q16 FZT696BTA NPN Transistor SOT223 Zetex Q17 FMMTA06 NPN Transistor SOT23 Zetex Q18 FMMTA06 NPN Transistor SOT23 Zetex Q19 FMMTA06 NPN Transistor SOT23 Zetex Q20 FMMTA06 NPN Transistor SOT23 Zetex Q21 FMMTA06 NPN Transistor SOT23 Zetex Q22 FMMTA06 NPN Transistor SOT23 Zetex Q23 FMMTA06 NPN Transistor SOT23 Zetex Q24 FMMTA06 NPN Transistor SOT23 Zetex Q25 FMMTA06 NPN Transistor SOT23 Zetex Q26 FMMTA06 NPN Transistor SOT23 Zetex Q27 FMMTA06 NPN Transistor SOT23 Zetex Q28 FMMTA06 NPN Transistor SOT23 Zetex Q29 FMMTA06 NPN Transistor SOT23 Zetex Q30 FMMTA06 NPN Transistor SOT23 Zetex Q31 FMMTA06 NPN Transistor SOT23 Zetex Q32 FMMTA06 NPN Transistor SOT23 Zetex Q33 FMMTA06 NPN Transistor SOT23 Zetex Q34 FMMTA06 NPN Transistor SOT23 Zetex Q35 FMMTA06 NPN Transistor SOT23 Zetex Q36 FMMTA06 NPN Transistor SOT23 Zetex Zetex DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 42 Freescale Semiconductor DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials Q37 FMMTA06 NPN Transistor SOT23 Zetex Q38 FMMTA06 NPN Transistor SOT23 Zetex Q39 FMMTA06 NPN Transistor SOT23 Zetex Q40 FMMTA06 NPN Transistor SOT23 Zetex Q41 FMMTA06 NPN Transistor SOT23 Zetex R1 CR0805-10W-24R9FT 24.9 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-24R9FT 24.9 1% 0805 .1 W Thick Film Chip Resistor Venkel R2 R3 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 B R4 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 Venkel R5 20K CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel R6 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R7 20K CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel R8 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R9 4.99K RR1220P-4991-D-M R10 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R11 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R12 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R13 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R14 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R15 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R16 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R17 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R18 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R19 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R20 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R21 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R22 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R23 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R24 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R25 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R26 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R27 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R28 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R29 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R30 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R31 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R32 4.99K RR1220P-4991-D-M R33 20K CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel R34 20K CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel R35 20K CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel R36 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R37 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R38 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R39 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R40 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R41 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R42 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R43 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R44 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R45 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R46 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Venkel Susumu Co Ltd Venkel Venkel Venkel Venkel Venkel Venkel Venkel Venkel Venkel Venkel Venkel Venkel Susumu Co Ltd DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 43 DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials R47 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R48 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R49 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R50 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R51 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R52 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R53 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R54 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R55 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R56 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R57 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R58 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R59 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R60 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R61 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R62 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R63 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R64 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R65 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R66 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R67 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R68 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R69 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R70 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R71 CR0805-10W-2000FT 200 1% 0805 .1 W Thick Film Chip Resistor Venkel R72 NONE R73 0.0 R74 NONE R75 NONE R76 0.0 R77 NONE R78 0.0 R79 R80 1.1K R81 NONE R82 1.1K R83 Do Not Install CR0805-10W-000T ZERO OHM Jumper 0805 Venkel Do Not Install Do Not Install CR0805-10W-000T ZERO OHM Jumper 0805 Venkel Do Not Install CR0805-10W-000T ZERO OHM Jumper 0805 Venkel CR0805-10W-3320FT 332 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1101FT 1.1K 1% 0805 .1 W Thick Film Chip Resistor Venkel Do Not Install CR0805-10W-1101FT 1.1K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1540FT 154 1% 0805 .1 W Thick Film Chip Resistor Venkel R84 NONE Do Not Install R85 10K CR0805-10W-1002FT R86 0.0 CR0805-10W-000T R87 10K R88 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel ZERO OHM Jumper 0805 Venkel CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R89 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R90 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R91 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R92 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R93 CR0805-10W-24R9FT 24.9 1% 0805 .1 W Thick Film Chip Resistor Venkel R94 CR0805-10W-24R9FT 24.9 1% 0805 .1 W Thick Film Chip Resistor Venkel R95 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R96 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R97 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 44 Freescale Semiconductor DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials R98 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R99 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R100 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R101 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R102 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R103 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R104 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-4020FT 402 1% 0805 .1 W Thick Film Chip Resistor Venkel R105 R106 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R107 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R108 CR0805-10W-2430FT 243 1% 0805 .1 W Thick Film Chip Resistor Venkel R109 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R110 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R111 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R112 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R113 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R114 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R115 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R116 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R117 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R118 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R119 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-2430FT 243 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R124 CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel R125 CR0805-10W-3320FT 332 1% 0805 .1 W Thick Film Chip Resistor Venkel R126 CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel R127 CR0805-10W-3320FT 332 1% 0805 .1 W Thick Film Chip Resistor Venkel R120 R121 10K R122 R123 R128 10K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R129 1K CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel R130 CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel R131 CR0805-10W-3320FT 332 1% 0805 .1 W Thick Film Chip Resistor Venkel R132 CR0805-10W-3320FT 332 1% 0805 .1 W Thick Film Chip Resistor Venkel R133 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R134 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R135 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R136 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R137 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R138 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R139 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R140 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R141 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R142 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R143 7.5K CR080510W-7501FT 7.5K 1% 0805 .1 W Thick Film Chip Resistor Venkel R144 2.49K CR0805-10W-2491FT 2.49K 1% 0805 .1 W Thick Film Chip Resistor Venkel R145 1.5K CR0805-10W-1501FT 1.5K 1% 0805 .1 W Thick Film Chip Resistor Venkel R146 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R147 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R148 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 45 DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials R149 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R150 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R151 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R152 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R153 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R154 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R155 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R156 NONE R157 10M CR0805-10W-1005FT 10M 1% 0805 .1 W Thick Film Chip Resistor Venkel R158 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R159 10M CR0805-10W-1005FT 10M 1% 0805 .1 W Thick Film Chip Resistor Venkel R160 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R161 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R162 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel Do Not Install R163 7.5K CR080510W-7501FT 7.5K 1% 0805 .1 W Thick Film Chip Resistor Venkel R164 2.49K CR0805-10W-2491FT 2.49K 1% 0805 .1 W Thick Film Chip Resistor Venkel R165 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R166 NONE Do Not Install R167 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 Venkel R168 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R169 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R170 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R171 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R172 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R173 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R174 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R175 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R176 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel R177 R178 NONE R179 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 Venkel R180 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 Venkel R181 18K CR0805-10W-183JT 18K 5% 0805 .1 W Thick Film Chip Resistor Venkel R182 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R183 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R184 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R185 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 Venkel R186 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R187 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R188 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R189 76.8K CR0805-10W-7682FT 76.8K 1% 0805 .1 W Thick Film Chip Resistor Venkel R190 NONE R191 1.74K R192 R193 0.0 R194 Do Not Install Do Not Install CR0805-10W-1741FT 1.74K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel ZERO OHM Jumper 0805 Venkel CR0805-10W-1540FT 154 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-000T R195 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R196 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R197 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-24R9FT 24.9 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R198 R199 10K DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 46 Freescale Semiconductor DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials R200 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R201 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R202 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R203 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R204 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel R205 R206 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R207 1K CR0805-10W-1001FT 1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R208 CR0805-10W-7320FT 732 1% 0805 .1 W Thick Film Chip Resistor Venkel R209 CR0805-10W-2430FT 243 1% 0805 .1 W Thick Film Chip Resistor Venkel R210 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R211 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-1100FT 110 1% 0805 .1 W Thick Film Chip Resistor Venkel R212 R213 NONE R214 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R215 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R216 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R217 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R218 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R219 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R220 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R221 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R222 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R223 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R224 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R225 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R226 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R227 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R228 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R229 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R230 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R231 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R232 20K CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel R233 NONE R234 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R235 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R236 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R237 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R238 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R239 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R240 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R241 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R242 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R243 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R244 20K CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-2430FT 243 1% 0805 .1 W Thick Film Chip Resistor Venkel R245 Do Not Install Do Not Install R246 NONE R247 10K CR0805-10W-1002FT Do Not Install 10K 1% 0805 .1 W Thick Film Chip Resistor R248 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R249 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R250 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd Venkel Venkel DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 47 DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials R251 10K CR0805-10W-1002FT R252 4.99K RR1220P-4991-D-M 10K 1% 0805 .1 W Thick Film Chip Resistor 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R253 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R254 10K CR0805-10W-1002FT R255 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R256 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R257 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R258 10K CR0805-10W-1002FT R259 4.99K RR1220P-4991-D-M R260 10K CR0805-10W-1002FT R261 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R262 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R263 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R264 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R265 10K CR0805-10W-1002FT R266 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R267 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R268 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R269 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R270 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R271 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R272 10K CR0805-10W-1002FT R273 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R274 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R275 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R276 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R277 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R278 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R279 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R280 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R281 10K CR0805-10W-1002FT R282 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R283 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R284 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R285 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R286 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R287 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R288 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R289 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R290 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R291 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R292 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R293 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R294 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R295 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R296 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R297 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R298 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R299 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R300 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R301 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel 10K 1% 0805 .1 W Thick Film Chip Resistor 10K 1% 0805 .1 W Thick Film Chip Resistor 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor 10K 1% 0805 .1 W Thick Film Chip Resistor 10K 1% 0805 .1 W Thick Film Chip Resistor 10K 1% 0805 .1 W Thick Film Chip Resistor 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel Venkel Venkel Susumu Co Ltd Venkel Venkel Venkel Venkel Venkel Venkel Venkel Venkel Venkel DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 48 Freescale Semiconductor DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials R302 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R303 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R304 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R305 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R306 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R307 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R308 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R309 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R310 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R311 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R312 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R313 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R314 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R315 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R316 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R317 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R318 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R319 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R320 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R321 4.99K RR1220P-4991-D-M 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Susumu Co Ltd R322 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R323 3.57K CR0805-10W-3571FT 3.57K 1% 0805 .1 W Thick Film Chip Resistor Venkel R324 100K CR0805-10W-1003FT 100K 1% 0805 .1 W Thick Film Chip Resistor Venkel R325 1.1K CR0805-10W-1101FT 1.1K 1% 0805 .1 W Thick Film Chip Resistor Venkel R326 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R327 4.99K RR1220P-4991-D-M R328 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R329 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor R330 4.99K RR1220P-4991-D-M R331 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel R332 10K CR0805-10W-1002FT 10K 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-2430FT 243 1% 0805 .1 W Thick Film Chip Resistor Venkel CR0805-10W-2002FT 20K 1% 0805 .1 W Thick Film Chip Resistor Venkel R333 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor 4.99K 0.5% 0805 .1 W Thin Film Chip Resistor Venkel Susumu Co Ltd Venkel Venkel Susumu Co Ltd R334 20K R335 NONE R336 NONE R337 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 Venkel R338 0.0 CR0805-10W-000T ZERO OHM Jumper 0805 Venkel R339 NONE Do Not Install R340 NONE Do Not Install R341 NONE Do Not Install R342 NONE Do Not Install R343 NONE Do Not Install RV1 1K CA6V-SMD-1K-WT 6mm Trimmer 1K with White Knob RV2 1K CA6V-SMD-1K-WT 6mm Trimmer 1K with White Knob Vimex RV3 10K SL101N-A-10K-L2.5 10K Audio Taper Slide Pot Venkel RV4 10K SL101N-A-10K-L2.5 10K Audio Taper Slide Pot Venkel SW1 TL3301NF160QG/TR Surface Mount Tact Switch E-Switch SW2 218-8LPST 8 Position Half Pitch Dip Switch SW3 218-8LPST 8 Position Half Pitch Dip Switch T1 TTWB1010 1:1 Wide Band RF Transformers Surface Mount Coilcraft T2 TTWB1010 1:1 Wide Band RF Transformers Surface Mount Coilcraft Do Not Install Do Not Install Vimex CTS CTS DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 49 DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials T3 TTWB1010 1:1 Wide Band RF Transformers Surface Mount Coilcraft T4 TTWB1010 1:1 Wide Band RF Transformers Surface Mount Coilcraft T5 TTWB1010 1:1 Wide Band RF Transformers Surface Mount Coilcraft T6 TTWB1010 1:1 Wide Band RF Transformers Surface Mount PJ-202-30 Test Point .300" TP6 GND TP7 Coilcraft Components Corp. AFM2-08SG6MM/3.55MM 4 X 2 Header 2.54mm on center 6 mm/3.0mm TP9 GND TP10 TP11 PJ-202-30 Vimex Test Point .300" Components Corp. AFM2-08SG6MM/3.55MM 4 X 2 Header 2.54mm on center 6 mm/3.0mm Vimex PJ-202-30 Test Point .300" SN65220 Single Universal Serial Bus Port Transient Suppressor DBV SOT-23-6 U2 MAX232D Dual EIA-232 Driver/Receiver SOIC-16.150" U3 74LVXC4245QSC 8-Bit Dual Supply Configuarable Volt Interface Transceiver 3-STATE Outputs QSOP 16 Fairchild U4 74LVXC4245QSC 8-Bit Dual Supply Configuarable Volt Interface Transceiver 3-STATE Outputs QSOP 16 Fairchild U1 GND Components Corp. TI Maxim U5 74VHCT08M Quad 2 Input AND Gate SOIC-14 Fairchild U6 74VHCT125M Quad Buffer with 3-STATE Outputs SOIC-14 Fairchild U7 74LCX07D Low Voltage Hex Buffer Open Drain Outputs SOIC-14 Fairchild U8 FST3257 U9 DS1818R-5 U10 MC68HC908JB16FA U11 Quad 2:1 Multiplexer/De Multiplexer Bus Switch ON Semiconductor 3.3 Econo Reset with Push Button SOT23 Dallas MPU Motorola 74VHC00M Quad 2-Input NAND Gate SOIC-14 Fairchild U12 74VHC32M Quad 2-Input OR Gate SOIC-14 Fairchild U13 74VHCT125M U14 FST3257 U15 MC68HC908GP32CFB U16 GP1FA550TZ U17 AK4101VQ U18 74VHCT125M Quad Buffer with 3-STATE Outputs SOIC-14 Fairchild U19 74VHCT125M Quad Buffer with 3-STATE Outputs SOIC-14 Fairchild U20 74VHCT125M Quad Buffer with 3-STATE Outputs SOIC-14 Fairchild U21 74VHC74M Dual D-Type Flip-Flop with Preset and Clear SOIC-14 Fairchild U22 74VHCT08M Quad 2 Input AND Gate SOIC-14 Fairchild U23 GP1FA550RZ SPDIF Optical Receiver U24 NC7SZU04M5 TinyLogic UHS Unbuffered Inverter SOT 23-5 U25 MAX8211CSA Microprocessor Voltage Monitors with Programmable Voltage Detection SOIC-8 Maxim U26 GP1FA550RZ SPDIF Optical Receiver Sharp U27 AK4114VQ High Feature 192KHz 24-Bit Digital Audio Interface Transceiver 48 pin LQFP (0.5mm pitch) AKM U28 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U29 AK5380VT 96KHz 24-Bit ADC with Single-ended Input 16 pin TSSOP AKM U30 AK4355VF 192KHz 24-Bit 6ch DAC for DVD -Audio 28 pin VSOP (0.65mm pitch) AKM U31 AK4355VF 192KHz 24-Bit 6ch DAC for DVD -Audio 28 pin VSOP (0.65mm pitch) AKM U32 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U33 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U34 AK5380VT Quad Buffer with 3-STATE Outputs SOIC-14 Fairchild Quad 2:1 Multiplexer/De Multiplexer Bus Switch ON Semiconductor MPU Motorola SPDIF Optical Transmitter Sharp Quad Outputs 192KHZ 24-Bit DIT 44 Pin LQFP (0.8mm pitch) 96KHz 24-Bit ADC with Single-ended Input 16 pin TSSOP AKM Sharp Fairchild AKM DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 50 Freescale Semiconductor DSP56374 Daughterboard Schematics Table B-1. EVM Bill of Materials U35 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U36 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U37 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U38 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U39 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U40 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U41 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U42 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U43 NE5532AD8 High Performance Low Noise Dual Operational Amplifier DMP8, SOIC-8 Philips U44 LM1117MP-ADJ 3 Terminal Adjustable Positive LDO Regulator SOT223 U45 LM1117MP-ADJ 4 Terminal Adjustable Positive LDO Regulator SOT223 U46 NC7SZU04M5 TinyLogic UHS Unbuffered Inverter SOT 23-5 U47 LM337IMP U48 74LVXC3245QSC 3 Terminal Adjustable Negative Regulator SOT223 8-Bit Dual Supply Configuarable Volt Interface Transceiver 3-STATE Outputs QSOP 16 NSC NSC Fairchild NSC Fairchild U49 4.7V TPS79147DBVR Ultra Low Noise High PSRR Fast RF 4.7V 100-MA, LDO Linear Regulator SOT23-5 TI U50 4.7V TPS79147DBVR Ultra Low Noise High PSRR Fast RF 4.7V 100-MA, LDO Linear Regulator SOT23-5 TI U51 4.7V TPS79147DBVR Ultra Low Noise High PSRR Fast RF 4.7V 100-MA, LDO Linear Regulator SOT23-5 TI U52 4.7V TPS79147DBVR Ultra Low Noise High PSRR Fast RF 4.7V 100-MA, LDO Linear Regulator SOT23-5 TI X1 9.8304MHZ HCM49-9.8304MABJT HCM49 Series Surface Mount Crystals 9.8304MHZ Citizen America X2 24.576MHZ HCM49-24.576MABJT HCM49 Series Surface Mount Crystals 24.576MHZ Citizen America X3 11.0592MHZ HCM49-11.0592MABJT HCM49 Series Surface Mount Crystals 11.0592MHZ Citizen America X4 12.000MHZ HCM49-12.000MABJT HCM49 Series Surface Mount Crystals 12.000MHZ Citizen America DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 51 DSP56374 Daughterboard Schematics Supporting Documentation Find device user manual/datasheets at http://e-www.motorola.com/webapp/sps/library/docu_lib.jsp 56300 Family Manual http://e-www.motorola.com/brdata/PDFDB/docs/DSP56300FM.pdf http://e-www.motorola.com/brdata/PDFDB/docs/DSP56300FMAD.pdf 56362 http://e-www.motorola.com/brdata/PDFDB/docs/DSP56362.pdf http://e-www.motorola.com/brdata/PDFDB/docs/DSP56362UM.pdf 56364 http://e-www.motorola.com/brdata/PDFDB/docs/DSP56364.pdf http://e-www.motorola.com/brdata/PDFDB/docs/DSP56364UM.pdf 56366 http://e-www.motorola.com/brdata/PDFDB/docs/DSP56366.pdf http://e-www.motorola.com/brdata/PDFDB/docs/DSP56366UM.pdf 56367 http://e-www.motorola.com/brdata/PDFDB/docs/DSP56367UM.pdf AKM parts www.akm.com DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. 52 Freescale Semiconductor DSP56374 Daughterboard Schematics DSPAUDIOEVM Users Guide, Rev. 2.4 This document contains information on a new product. Specifications and information herein are subject ot change without notice. Freescale Semiconductor 53 How to Reach Us: Home Page: www.freescale.com E-mail: support@freescale.com USA/Europe or Locations Not Listed: Freescale Semiconductor Technical Information Center, CH370 1300 N. Alma School Road Chandler, Arizona 85224 +1-800-521-6274 or +1-480-768-2130 support@freescale.com Europe, Middle East, and Africa: Freescale Halbleiter Deutschland GmbH Technical Information Center Schatzbogen 7 81829 Muenchen, Germany +44 1296 380 456 (English) +46 8 52200080 (English) +49 89 92103 559 (German) +33 1 69 35 48 48 (French) support@freescale.com Japan: Freescale Semiconductor Japan Ltd. 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FreescaleTM and the Freescale logo are trademarks of Freescale Semiconductor, Inc. All other product or service names are the property of their respective owners. (c) Freescale Semiconductor, Inc. 2004. All rights reserved. DSPAUDIOEVMUG Rev. 2.4 08/2004