CDB4360 Evaluation Board for CS4360 Rev. B Features Description l Demonstrates The CDB4360 evaluation board is an excellent means for quickly evaluating the CS4360 24-bit, stereo D/A converter. Evaluation requires an analog signal analyzer, a digital signal source, a PC for controlling the CS4360 (for control port mode only) and a power supply. Line outputs are provided via RCA phono jacks. recommended layout and grounding arrangements l CS8414 receives AES/EBU, S/PDIF, and EIAJ-340 Compatible Digital Audio l Requires only a digital signal source and power supplies for a complete Digital-toAnalog-Converter system The CS8414 digital audio receiver I.C. provides the system timing necessary to operate the Digital-to-Analog converter and will accept AES/EBU, S/PDIF, and EIAJ340 compatible audio data. The evaluation board may also be configured to accept external timing and data signals for operation in a user application during system development. ORDERING INFORMATION CDB4360 Evaluation Board I/O for Clocks and Data CS8414 Digital Audio Interface Preliminary Product Information P.O. Box 17847, Austin, Texas 78760 (512) 445 7222 FAX: (512) 445 7581 http://www.cirrus.com Control Port CS4360 Six Line Level Outputs This document contains information for a new product. Cirrus Logic reserves the right to modify this product without notice. Copyright Cirrus Logic, Inc. 2001 (All Rights Reserved) AUG ‘01 DS517DB2 1 CDB4360 TABLE OF CONTENTS 1. 2. 3. 4. 5. 6. 7. 8. CDB4360 SYSTEM OVERVIEW .................................................................... 3 CS4360 DIGITAL TO ANALOG CONVERTER .............................................. 3 CS8414 DIGITAL AUDIO RECEIVER ............................................................ 3 INPUT/OUTPUT FOR CLOCKS AND DATA ................................................. 3 POWER SUPPLY CIRCUITRY ....................................................................... 3 GROUNDING AND POWER SUPPLY DECOUPLING .................................. 3 CONTROL PORT SOFTWARE ...................................................................... 3 ERRATA ......................................................................................................... 4 LIST OF FIGURES Figure 1. System Block Diagram and Signal Flow .......................................................................... 5 Figure 2. CS4360 ............................................................................................................................ 6 Figure 3. CS8414 - Digital Audio Receiver...................................................................................... 7 Figure 4. Control Port Interface and Level Shifters ......................................................................... 8 Figure 5. Digital Audio Inputs and Level Shifters ............................................................................ 9 Figure 6. Line Level Outputs (AOUTA1, AOUTB1) ....................................................................... 10 Figure 7. Line Level Outputs (AOUTA2, AOUTB2) ....................................................................... 11 Figure 8. Line Level Outputs (AOUTA3, AOUTB3) ....................................................................... 12 Figure 9. Power Supplies .............................................................................................................. 13 Figure 10. Silkscreen Top ............................................................................................................. 14 Figure 11. Top Side....................................................................................................................... 15 Figure 12. Bottom Side.................................................................................................................. 16 Contacting Cirrus Logic Support For a complete listing of Direct Sales, Distributor, and Sales Representative contacts, visit the Cirrus Logic web site at: http://www.cirrus.com/corporate/contacts/ Preliminary product information describes products which are in production, but for which full characterization data is not yet available. Advance product information describes products which are in development and subject to development changes. Cirrus Logic, Inc. has made best efforts to ensure that the information contained in this document is accurate and reliable. However, the information is subject to change without notice and is provided “AS IS” without warranty of any kind (express or implied). No responsibility is assumed by Cirrus Logic, Inc. for the use of this information, nor for infringements of patents or other rights of third parties. This document is the property of Cirrus Logic, Inc. and implies no license under patents, copyrights, trademarks, or trade secrets. No part of this publication may be copied, reproduced, stored in a retrieval system, or transmitted, in any form or by any means (electronic, mechanical, photographic, or otherwise) without the prior written consent of Cirrus Logic, Inc. Items from any Cirrus Logic website or disk may be printed for use by the user. However, no part of the printout or electronic files may be copied, reproduced, stored in a retrieval system, or transmitted, in any form or by any means (electronic, mechanical, photographic, or otherwise) without the prior written consent of Cirrus Logic, Inc.Furthermore, no part of this publication may be used as a basis for manufacture or sale of any items without the prior written consent of Cirrus Logic, Inc. The names of products of Cirrus Logic, Inc. or other vendors and suppliers appearing in this document may be trademarks or service marks of their respective owners which may be registered in some jurisdictions. A list of Cirrus Logic, Inc. trademarks and service marks can be found at http://www.cirrus.com. 2 DS517DB2 CDB4360 1. CDB4360 SYSTEM OVERVIEW The CDB4360 evaluation board is an excellent means of quickly evaluating the CS4360. The CS8414 digital audio interface receiver provides an easy interface to digital audio signal sources including the majority of digital audio test equipment. The evaluation board also allows the user to supply clocks and data through a 10-pin header for system development. The CDB4360 schematic has been partitioned into 8 schematics shown in Figures 2 through 9. Each partitioned schematic is represented in the system diagram shown in Figure 1. Notice that the system diagram also includes the interconnections between the partitioned schematics. 2. CS4360 DIGITAL TO ANALOG CONVERTER A description of the CS4360 is included in the CS4360 datasheet. 3. CS8414 DIGITAL AUDIO RECEIVER The system receives and decodes the standard S/PDIF data format using a CS8414 Digital Audio Receiver, Figure 3. The outputs of the CS8414 include a serial bit clock, serial data, left-right clock (FSYNC), and a 256 x Fs master clock. The operation of the CS8414 and a discussion of the digital audio interface are included in the CS8414 datasheet. The evaluation board has been designed such that the input can be either optical or coax, see Figure 3. However, both inputs cannot be driven simultaneously. The CS8414 data format is hard-wired to I2S. 4. INPUT/OUTPUT FOR CLOCKS AND DATA The evaluation board has been designed to allow interfacing to external systems via the 10-pin header, J24. This header allows the evaluation board to DS517DB2 accept externally generated clocks and data. The schematic for the clock/data I/O is shown in Figure 5. 5. POWER SUPPLY CIRCUITRY Power is supplied to the evaluation board by six binding posts (GND, +5 V, VLC, VLS, VD, and VA), see Figure 9. The +5 V input supplies power to the +5 Volt digital circuitry (VD_+5), while the VLC input supplies power to the Voltage Level Converters for the control port interface and the CS4360 VLC pin. The VLS input supplies power to the Voltage Level Converters for the serial audio port interface and the CS4360 VLS pin. VA and VD supply power to the CS4360. For ease of use, it is possible to connect VLC, VLS, VD, and VA to the same supply. WARNING: VA and VD must be between +2.7V and +5.5V. VLC and VLS must be between +1.7 V and +5.5 V. Operation outside of this range can cause permanent damage to the device. See the CS4360 datasheet for more details. 6. GROUNDING AND POWER SUPPLY DECOUPLING The CS4360 requires careful attention to power supply and grounding arrangements to optimize performance. Figure 2 details the power distribution used on this board. The decoupling capacitors are located as close to the CS4360 as possible. Extensive use of ground plane fill on both the analog and digital sections of the evaluation board yields large reductions in radiated noise. See Figures 1012 for the CDB4360 PCB layout artwork. 7. CONTROL PORT SOFTWARE The CDB4360 is shipped with Windows based software for interfacing with the CS4360 control port via the parallel connector, J28. The software can be used to communicate with the CS4360 in SPI or Two Wire mode. Note: J18-J21 must be set appropriately for control port mode operation. 3 CDB4360 8. ERRATA should be labeled “SA”. The labeling is correct in the schematics. CDB4360 Revision A.0 CDB4360 Revision B.0 The CDB4360 revision A.0 has the following errata. The silkscreen for J18 is reversed. The right position should be labeled “CP” and the left position CONNECTOR INPUT/OUTPUT +5 V Input The CDB4360 revision B.0 has no Errata. SIGNAL PRESENT + 5 Volt power VA, VD Input + 3.0 Volt to + 5.0 Volt power for the CS4360 VLC, VLS Input +1.8 Volt to +5.0 Volt power for the Level Shifters and the CS4360 GND Input Ground connection from power supply Coax Input Input Digital audio interface input via coax Optical Input Input J24 Input/Output I/O for master, serial, left/right clocks and serial data Digital audio interface input via optical Parallel Port Input/Output Serial connection to PC for SPI and Two Wire mode control port signals J17 Input/Output I/O for SPI and Two Wire mode control port signals AOUTAx, AOUTBx Output Line outputs Table 1. System Connections JUMPER/ SWITCH S1 (DIP SW) Reset (S2) J18† POSITION *CLOSED OPEN J22, J21 FUNCTION SELECTED CS8414 is enabled (J24 is an output) Disabled (External Clocks and Data are input via J24) Resets the CDB4360 Selects Stand-Alone or Control Port mode J19, J20 Notes: PURPOSE Enable/Disable the CS8414 Interface Format Mode Select CP *SA Control Port Mode selected Stand-Alone mode selected J19 LO *LO HI HI HI J20 LO *HI LO HI HI Stand-Alone Mode, Left Justified format Stand-Alone Mode, I2S format Stand-Alone Mode, Right Justified, 16-bit format Stand-Alone Mode, Right Justified, 24-bit format Control Port Mode setting J22 *LO LO HI HI HI J21 *LO HI LO HI HI Stand-Alone Mode, Single Speed, no De-Emphasis Stand-Alone Mode, Single Speed, De-Emphasis Stand-Alone Mode, Double Speed Stand-Alone Mode, Quad Speed Control Port Mode setting *Default factory settings †See Errata section Table 2. CDB4360 Jumper and Switch settings 4 DS517DB2 CDB4360 Control Port Figure 4 I/O for Clock and Data & Level Shifter Figure 5 CS8414 Digital & Audio Receiver Figure 3 Line Level Output Figure 6 CS4360 Figure 2 Line Level Output Figure 7 Line Level Output Figure 8 Power Figure 9 Figure 1. System Block Diagram and Signal Flow DS517DB2 5 Figure 2. CS4360 CDB4360 6 DS517DB2 Figure 3. CS8414 - Digital Audio Receiver CDB4360 DS517DB2 7 Figure 4. Control Port Interface and Level Shifters CDB4360 8 DS517DB2 CDB4360 Figure 5. Digital Audio Inputs and Level Shifters DS517DB2 9 Figure 6. Line Level Outputs (AOUTA1, AOUTB1) CDB4360 10 DS517DB2 Figure 7. Line Level Outputs (AOUTA2, AOUTB2) CDB4360 DS517DB2 11 Figure 8. Line Level Outputs (AOUTA3, AOUTB3) CDB4360 12 DS517DB2 Figure 9. Power Supplies CDB4360 DS517DB2 13 CDB4360 Figure 10. Silkscreen Top 14 DS517DB2 CDB4360 Figure 11. Top Side DS517DB2 15 CDB4360 Figure 12. Bottom Side 16 DS517DB2 • Notes •