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| CRD4201-2S CrystalClearTM AC '97 Six Channel Secondary ACR Audio Reference Design Features l Six Description The CRD4201-2S Advanced Communications Riser (ACR) reference design features four channel analog audio outputs and an optical S/PDIF digital output. This board is designed to provide the rear left, rear right, center and sub-woofer channels in a six channel ACR audio sub-system. The front left and front right channels are provided by the primary audio codec on the motherboard. This board uses the CS4201 configured as a secondary audio codec which has several advanced features. These include a serial digital audio output and up to 30 dB of microphone boost. The CRD4201-2S reference design is available by ordering the CMK4201-2 manufacturing kit. This kit includes the CRD4201-2, the CRD4201-2S, a full set of schematic design files (OrCAD(R) format), PCB job files (PADS(R) ASCII), PCB artwork files, and bill of materials. This reference design offers significant cost savings over competing solutions and can be easily modified to meet your specific design goals. ORDERING INFO CMK4201-2 (Manufacturing Kit) Channel Analog Audio Output - Two channels on the Motherboard - Four channels on the CRD4201-2S l CS4201 audio codec and CS4334 DAC l 20-bit D to A conversion (DAC) l 18-bit A to D conversion (ADC) l S/PDIF (IEC-958) optical digital output l Complete suite of Analog I/O connections: - Line, Mic, CD, Video, and Aux Inputs - Line Rear, and Line Center/Sub-Woofer Outputs l 2-layer low cost PC board l Meets Intel (R) AC `97 version 2.1 specification l Exceeds Microsoft's(R) PC-2001 audio performance requirements. Microphone Input Line Input Rear Channel Outputs MIC IN INT MODEM LINE IN SURR OUT CD IN VIDEO IN AUX IN Cirrus Logic CRD4201-2S Center Channel and Sub-Woofer Outputs CS4201 CNT/LFE OUT S/PDIF Digital Optical Output S/PDIF OUT Preliminary Product Information P.O. Box 17847, Austin, Texas 78760 (512) 445 7222 FAX: (512) 445 7581 http://www.cirrus.com 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) JUL `01 DS483RD2SA1 1 CRD4201-2S TABLE OF CONTENTS 1. GENERAL INFORMATION ...................................................................................3 2. SCHEMATIC DESCRIPTION ................................................................................3 2.1 CS4201 Audio Codec .................................................................................3 2.2 Analog Inputs ..............................................................................................4 2.3 Center and Sub-Woofer Outputs ................................................................4 2.4 Rear Channel Outputs ................................................................................4 2.5 S/PDIF Optical Output ................................................................................4 2.6 ACR Connector and EEPROM ...................................................................4 2.7 Component Selection .................................................................................4 2.8 EMI Components ........................................................................................5 3. GROUNDING AND LAYOUT ................................................................................5 3.1 Partitioned Voltage and Ground Planes .....................................................5 3.2 CS4201 Layout Notes .................................................................................5 4. REFERENCES .......................................................................................................6 4.1 ADDENDUM ...............................................................................................6 5. BILL OF MATERIALS .........................................................................................19 LIST OF FIGURES Figure 1. Block Diagram ....................................................................................................7 Figure 2. CS4201 Audio Codec .........................................................................................8 Figure 3. Analog Inputs ......................................................................................................9 Figure 4. Center Channel and Sub-Woofer Outputs ........................................................10 Figure 5. Rear Channel Outputs ......................................................................................11 Figure 6. S/PDIF Optical Output ......................................................................................12 Figure 7. ACR Connector .................................................................................................13 Figure 8. PCB Layout: Top Assembly Drawing ................................................................14 Figure 9. PCB Layout: Top Layer ....................................................................................15 Figure 10. PCB Layout: Bottom Layer .............................................................................16 Figure 11. PCB Layout: Drill Drawing ..............................................................................17 Figure 12. PCB Layout: Top Silkscreen ...........................................................................18 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/ Microsoft, Windows 95, Windows 98 and Windows Millennium and WHQL is registered trademark of Microsoft. CrystalClear is a trademark of Cirrus Logic, Inc. Intel is a registered trademark of Intel Corporation. OrCAD is a registered trademark of OrCAD, Inc. PADS is a registered trademark of, PADS Software, Inc. 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 DS483RD2SA1 CRD4201-2S 1. GENERAL INFORMATION The CRD4201-2S reference design is an ACR card that features four channel CD quality analog audio outputs. Combined with a CS4201 audio codec on the motherboard, the CRD4201-2S forms the rear left, rear right, center, and sub-woofer outputs of a six channel PC audio sub-system. The card includes a CS4201 AC '97 audio codec and a CS4334 24-bit serial stereo DAC. This combination gives the CRD4201-2S a rich feature set and industry leading audio performance. The CS4201 on this card is configured as the secondary AC `97 audio codec. This board must be used in conjunction with a CS4201 audio codec on the motherboard. For applications requiring a complete six channel audio subsystem on a single ACR card, use the CRD4201-2 also included in the CMK4201-2 manufacturing kit. The CS4201 audio codec has a stereo 20-bit DAC providing 2 channels of audio output, a stereo 18bit ADC, and a very flexible analog audio mixer. A CS4334 DAC is connected to the CS4201 serial output to provide two additional channels of analog audio. The CS4201 also features three stereo pairs of line level analog inputs, a microphone input, and a stereo pseudo-differential CD input. The input signals can be routed to the ADC for recording or mixed together for recording and direct playback. The CS4201 has internal registers that are used to control its various features such as volume levels, audio muting, and signal routing. The CS4201 maintains high audio quality and exceeds the Microsoft(R) PC-99 and PC-2001 audio performance specification. The CS4201 audio codec communicates to the audio controller across the ACR interface through the AC-Link. The AC-Link is a 5-wire serial digital interface that transfers digital audio between the two devices and also sends commands from the audio controller to the CS4201's registers. For more information on the AC-Link, see the Intel(R) AC'97 version 2.1 specification. 2. SCHEMATIC DESCRIPTION The block diagram in Figure 1 illustrates the interconnections between the schematic pages found at the end of this document. Sections 2.1 through 2.8 describe the circuitry contained in these schematics. Note: this design is based on the CRD4201-1 six channel reference design with some population option changes. 2.1 CS4201 Audio Codec The CS4201 audio codec is shown in Figure 2. The input signals to the CS4201 originate from the analog inputs in Figure 3, and the analog outputs are shown in Figure 5. AFLT1 and AFLT2 (pins 29, 30) require 1000 pF NPO/COG capacitors connected to analog ground. These capacitors provide a single pole lowpass filter at the inputs of the ADC. No other input filtering is required. FLT3D, FLTI, and FLTO (pins 32, 33, and 34) form the internal analog 3D enhancement filter. The FLT3D pin requires a 0.01 F capacitor to analog ground. The FLT0 and FLT1 pins require a NPO/COG 1000 pF series capacitor. The AC-Link may require series termination resistors to prevent reflections. These are normally placed as close as possible to the transmitting end of a particular AC-Link signal. The SDATA_IN (pin 8) output of the CS4201 has a 47 series termination resistor. The CS4201 is powered by separate analog and digital power supplies, each with their own respective grounds. The AGND symbols refer to analog ground, and DGND symbols refer to digital ground. The analog and digital grounds must be tied together. For best results, connect them together at a single point with a 0.050 inch trace underneath the CS4201. Each power pin needs separate decoupling capacitors. The CS4201 audio codec uses a 0.1 F ceramic capacitor for each of the 3 DS483RD2SA1 CRD4201-2S 3.3 V digital and 5 V analog supply pins. These decoupling capacitors are placed as close as possible to their respective pins. amp well suited for audio applications. Line Out is designed to drive high impedance loads of 10 K or higher. 2.2 Analog Inputs 2.5 S/PDIF Optical Output The LINE_IN, VIDEO_IN, and AUX_IN stereo input jacks in Figure 3 are connected to a 6 dB voltage divider and AC coupled to the CS4201. The voltage divider allows input signal levels of up to 2 Vrms. The 2.2 F AC coupling capacitor values are used to minimize low frequency roll-off. The microphone circuit is AC coupled by a 1 F capacitor to minimize low frequency roll-off. The microphone circuit provides low voltage phantom power for electret microphones. Phantom power is derived from the +5 V analog supply and provides a maximum of 4.2 V under no load and a minimum of 2.0 V under a 0.8 mA load. These parameters are required by PC-99 and PC-2001. The CS4201 features a pseudo-differential CD input that minimizes common mode noise and interference. Each CD signal acts as one side of the differential input and CD_COM acts as the other side. CD_COM is used as the common return path for both the left and right channels. The S/PDIF (IEC-958) digital output shown in Figure 6 is compatible with digital outputs on consumer devices such as Mini Disk recorders and consumer stereo receivers. The S/PDIF output operates at a fixed sampling frequency of 48 KHz. It uses an industry standard TOSLINK digital optical transmitter, the Toshiba TOTX-173. 2.6 ACR Connector and EEPROM The ACR connector is shown in Figure 7. ACR is a motherboard interface that supports audio, modem, LAN and DSL subsystems. ACR applications are targeted at OEMs, system manufacturers, and system integrators who wish take advantage of physically separating their audio, modem or LAN circuitry from the PC motherboard. ACR accomplishes this without the additional cost associated with the interface circuitry required for a PCI bus add-in card. The CRD4201-2S uses a 24LC09 EEPROM to store configuration data for plug-and-play enumeration. The 24LC09 is designed specifically for ACR applications. The base address of the device is internally wired to 0xB0. The EEPROM holds the Subsystem Vendor ID and Subsystem ID. For ACR design specifications, programming utilities, and information on programming the EEPROM see the Advanced Communication Riser Special Interest Group (ACR SIG) homepage at http://www.acrsig.org/. 2.3 Center and Sub-Woofer Outputs The outputs in Figure 4 drive the center speaker (CNT) and sub-woofer (LFE) in a six channel audio application. These outputs are driven digitally from the CS4201 through a serial output port and converted to analog audio through a high-performance CS4334 24-bit stereo DAC. 2.4 Rear Channel Outputs Figure 5 details the Rear Channel Output circuit. These are the Rear L and Rear R Outputs in a six channel audio system. They are driven by the Line Output pins of the CS4201. The Line Outputs of the CS4201 (pins 35 and 36) are buffered by a Motorola MC34072 dual op-amp. The MC34072 is a high performance low noise op4 2.7 Component Selection Great attention was given to the particular components used on the CRD4201-2S board with cost, performance, and package selection as the most important factors. Listed are some of the guidelines used in the selection of components: DS483RD2SA1 CRD4201-2S * * No components smaller than 0805 SMT package. Only single package passive components. No resistor packs. This reduces the risk of crosstalk between analog audio signals. All components except connectors and jumpers are in surface mount packages. The CS4201 audio codec is placed at the transition point between the analog and digital ground planes. The pins are arranged on the CS4201 so that the analog and digital signals are separated from each other. The analog and digital ground planes must be tied together for the CS4201 to maintain proper voltage references. For best results, the two ground planes are tied together with a single 50 mil trace under the CS4201 near its digital ground pins. A separate chassis ground provides a noise-free reference point for all of the EMI suppression components. The chassis ground plane is connected to the analog ground plane at the external jacks. * 2.8 EMI Components Optional capacitors and inductors are included to help the board meet EMI compliance tests, such as FCC Part 15. Choose these component values according to individual requirements. 3. GROUNDING AND LAYOUT The component layout and signal routing of the CRD4201-2S provides a good model for laying out your own ACR add-in card. 3.2 CS4201 Layout Notes 3.1 Partitioned Voltage and Ground Planes Refer to the CS4201 Data Sheet for analog and digital partitioning guidelines and bypass capacitor placement. Pay special attention to the bypass capacitors on REFFLT, AFLT1, AFLT2 and the power supply capacitors. It is critical for good audio performance to separate digital and analog sections to prevent digital noise from affecting the performance of the analog circuits. The analog section of the CRD4201-2S is completely isolated from the digital section with a 100 mil partition. Partitioning is defined as the absence of copper on all signal layers. The analog and digital sections each have their own separate ground planes. All analog components, power traces, and signal traces are routed over the analog ground plane. Digital components, power traces and signal traces are not allowed to crossover into the analog section. DS483RD2SA1 5 CRD4201-2S 4. REFERENCES 1) Intel(R), Audio Codec `97 Component Specification, Revision 2.1, May 22, 1998. http://developer.intel.com/ial/scalableplatforms/audio/ 2) ACR Special Interest Group, ACR Specification 1.0 http://www.acrsig.org/ 3) Cirrus Logic, CS4201 Audio Codec `97 Data Sheet http://www.cirrus.com/products 4) Steve Harris, Clif Sanchez, Personal Computer Audio Quality Measurements, Version 1.0 http://www.cirrus.com/pubs/meas100.pdf 5) Microsoft, PC Design Guidelines, http://www.microsoft.com/hwdev/desguid/ 6) M. Montrose, Printed Circuit Board Design Techniques for EMC Compliance (2nd edition), IEEE Press, New York: 2000. 4.1 * * * ADDENDUM Schematic drawings Layout drawings Bill of materials 6 DS483RD2SA1 CRD4201-2S ANALOG_IN LINE_IN_L LINE_IN_R CD_IN_L CD_IN_R CD_COM VIDEO_IN_L VIDEO_IN_R AUX_IN_L AUX_IN_R MIC_IN PHONE_IN MONO_OUT PC_BEEP CS4201 LINE_IN_L LINE_IN_R CD_IN_L CD_IN_R CD_COM VIDEO_IN_L VIDEO_IN_R HP_OUT_L HP_OUT_R HP_OUT_C LINE_OUT_L LINE_OUT_R VREFOUT ANALOG_OUT LINE_OUT_L LINE_OUT_R VREFOUT HP_OUT_L HP_OUT_R HP_OUT_C ANALOG_OUT AUX_IN_L AUX_IN_R MIC_IN SPDIF/SDO2 PRIM_DN# SERIAL PORT SDOUT SCLK LRCLK SDOUT SCLK LRCLK ABITCLK ASYNC ARST# MONO_OUT PC_BEEP CS4201 ANALOG_IN SPDIF/SDO2 ABITCLK ASDIN PHONE_IN ASDOUT SERIAL PORT ACR_BUS PRIM_DN# ASDOUT ASYNC ARST# ABITCLK ASDIN SPDIF_OUT SPDIF/SDO2 SPDIF_TX SPDIF_TX ACR_BUS SPDIF_OUT Figure 1. Block Diagram DS483RD2SA1 7 LINE_OUT_L LINE_OUT_R MONO_OUT 8 +3.3VD +5VA 25 38 AVdd2 4 7 6 AVss2 1 9 12 PC_BEEP PHONE AUX_L 10 11 35 36 39 41 37 48 47 45 46 31 HPCFG HP_OUT_C GPIO0/LRCLK GPIO1/SDOUT 40 43 44 AUX_R VIDEO_L VIDEO_R CD_L CD_GND CD_R MIC1 MIC2 LINE_IN_L LINE_IN_R Vrefout REFFLT AFLT1 AFLT2 FLT3D FLTI FLTO XTL_IN XTL_OUT ID0# ID1# EAPD/SCLK SPDO/SDO2 MONO_OUT HP_OUT_L HP_OUT_R LINE_OUT_R LINE_OUT_L SYNC RESET# SDATA_IN SDATA_OUT 5 8 BIT_CLK DVdd1 DVdd2 DVss1 DVss2 26 42 +3.3VD U1 CS4201 +5VA C1 0.1uF X7R C2 0.1uF X7R C3 0.1uF X7R C4 0.1uF X7R AVdd1 AVss1 DGND R2 47 15 16 17 18 19 20 21 22 23 24 28 AGND PHONE_IN AUX_IN_L AUX_IN_R VIDEO_IN_L VIDEO_IN_R CD_IN_L CD_COM CD_IN_R MIC_IN LINE_IN_L LINE_IN_R VREFOUT 27 29 30 32 33 34 2 3 PC_BEEP 13 14 R1 ABITCLK ASDOUT ASDIN ASYNC ARST# 0 DGND AGND LINE_OUT_L LINE_OUT_R HP_OUT_L HP_OUT_R MONO_OUT SPDIF/SDO2 SCLK PRIM_DN# C5 2.2uF Y5V C6 0.1uF X7R C7 1000pF NPO C8 1000pF NPO C9 0.01uF X7R C10 1000pF NPO HP_OUT_C LRCLK SDOUT AGND Y1 C11 1000pF NPO C12 1000pF NPO C13 1000pF NPO NO POP C14 NO POP C15 NO POP AGND DGND DGND CRD4201-2S DS483RD2SA1 Figure 2. CS4201 Audio Codec CD IN LINE IN R3 J1 4 3 L1 R4 LINE_IN_R + AGND 6.8K C17 + CD_IN_R 2.2uF ELEC 100 C16 J2 R5 5 2 1 2.2uF ELEC 4 31@100MHz AGND R6 6.8K 47K 3 2 1 L2 CD_COM + AGND R8 6.8K C21 + 2.2uF ELEC DS483RD2SA1 R7 100 C18 4.7uF ELEC R9 47K 31@100MHz Connect CGND to AGND at the jack R10 6.8K C19 100pF NPO C20 100pF NPO LINE_IN_L AGND L3 + CD_IN_L AGND CGND R11 100 C22 2.2uF ELEC 31@100MHz R12 47K AGND VIDEO IN R13 J3 4 MIC IN +5VA 6.8K + VIDEO_IN_R R17 100 C24 1uF Y5V C23 R14 2.2K R15 1.5K 2.2uF ELEC L4 J4 R16 6.8K 31@100MHz AGND 4 3 2 5 2 1 MIC_IN 1 L5 + VIDEO_IN_L R18 6.8K C25 2.2uF ELEC Connect CGND to AGND at the jack C26 100pF NPO C27 100pF NPO + C28 10uF ELEC C29 NO POP 31@100MHz AGND R19 6.8K AGND CGND AGND AGND AGND AUX IN R20 + AUX_IN_R J6 31@100MHz 2 1 PC SPEAKER IN 6.8K C30 L7 R21 47K C31 2.2uF ELEC 0.1uF X7R PC_BEEP L6 J5 R22 6.8K 31@100MHz AGND 4 3 2 1 R23 4.7K C32 2700pF X7R L8 + AUX_IN_L DGND R24 6.8K C33 2.2uF ELEC AGND AGND -3 dB corners at 60 Hz and 13.8 kHz (Ri >= 28 kOhm) 31@100MHz AGND R25 6.8K AGND INTERNAL MODEM CONNECTION R26 PHONE_IN + 6.8K C34 2.2uF ELEC L9 J7 R27 6.8K 4 3 31@100MHz AGND 2 1 L10 + R28 0 C35 2.2uF ELEC MONO_OUT 31@100MHz 47K R29 AGND AGND CRD4201-2S Figure 3. Analog Inputs 9 SDOUT 2 3 4 MCLK AOUTL 8 DEM#/SCLK VA+ 7 6 LRCK AGND 1 SDATA AOUTR 5 + + 1 2 3 4 MCLK AOUTL 8 DEM#/SCLK VA+ SDATA 7 6 LRCK AGND AOUTR 5 + + 10 +5VA CNT/LFE JACK (C/SUB OUT) U2 C36 4 CS4334 10uF ELEC R31 560 2 1 R30 560 J8 C37 10uF ELEC R32 270K +5VA R33 270K R34 47K R35 47K C38 2700pF X7R C39 2700pF X7R Connect CGND to AGND at the jack + C40 10uF ELEC AGND AGND C41 0.1uF X7R C42 0.1uF X7R CGND AGND AGND U3 C43 NO POP NO POP R36 NO POP 4 J9 C44 NO POP R37 NO POP 2 1 SPDIF/SDO2 SCLK LRCLK ABITCLK NO POP R38 NO POP R39 NO POP R40 NO POP R41 NO POP C45 NO POP C46 NO POP Connect CGND to AGND at the jack AGND AGND AGND CGND AGND CRD4201-2S DS483RD2SA1 Figure 4. Center Channel and Sub-Woofer Outputs 1 + + Vcc LINE_OUT_L MC34072D AGND C53 AGND 22pF NPO - Vee + HP_OUT_L C56 NO POP + + DS483RD2SA1 SURROUND OUT JACK U4A 3 (REAR OUT) C48 4 VREFOUT 2 + MC34072D C49 10uF ELEC 10uF ELEC J10 2 1 C47 +5VA 27K R44 220K R45 220K C50 100pF NPO R42 33K 22pF NPO PHONO-1/8 R43 LINE_OUT_R Connect CGND to AGND at the jack C51 100pF NPO U4B 5 R47 6 27K + 7 C52 0.1uF X7R CGND AGND R46 33K C54 NO POP 4 J11 HP_OUT_R C55 NO POP 2 1 HP_OUT_C NO POP R48 NO POP R49 NO POP C57 NO POP C58 NO POP Connect CGND to AGND at the jack AGND CGND AGND CRD4201-2S Figure 5. Rear Channel Outputs 11 CRD4201-2S SPDIF_TX J12 5 +5VD 4 3 DGND R50 C59 0.1uF X7R 8.2K 2 1 6 TOTX-173 DGND DGND Figure 6. S/PDIF Optical Output 12 DS483RD2SA1 +3.3VD P1 B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 +5VD USBGND A11 USB+ +12V A10 GND GND A9 USB_OC# -12V A8 +5Vdual/+5Vsb PRIMARY_DN# A7 GND RSVD(5) A6 RSVD(3) RSVD(4) A5 RSVD(2) MONO_OUT/PC_BEEP A4 RSVD(1) AGND A3 MONO_PHONE AUDIO_MUTE# A2 AUDIO_PWRDN A1 GND 2 DS483RD2SA1 C60 0.1uF X7R + C61 10uF ELEC PRIM_DN# +5VD +12VD populate only one resistor R51 0 SPDIF/SDO2 SPDIF_TX +5VD DGND B12 B13 B14 B15 B16 B17 B18 B19 B20 RESET# SDATA_IN3 GND A21 SDATA_IN2 GND MSTRCLK SCL SDA A24 BITCLK A22 A23 SDATA_IN0 GND GND A19 A20 GND SDATA_IN1 SDATA_OUT A18 SYNC +3.3VD GND A16 A17 +3.3Vdual/+3.3Vsb GND RSVD(7) A15 GND GND RSVD(6) A13 A14 GND S/PDIF_IN A12 R52 NO POP +3.3VD ASDOUT ARST# ASYNC R53 R54 NO POP 47 +3.3VD C62 0.1uF X7R + C63 10uF ELEC B21 B22 B23 B24 ASDIN ABITCLK DGND ACR Connector DGND DGND populate R54 for primary codec populate R53 for secondary codec R55 4.7K R56 4.7K +3.3VD +3.3VD U5 1 2 3 4 3 NC1 NC2 NC3 Vss Vcc WP SCL SDA 8 7 6 5 R57 NO POP +12VD U6 +5VA SCL SDA R58 0 24LC09 1 IN OUT C64 0.1uF X7R DGND C65 0.1uF X7R MC78M05C + C66 10uF ELEC + C67 10uF ELEC EEPROM address "0xB0" DGND DGND DGND AGND Connect AGND to DGND with a 50 mil trace near the regulator. Connect CGND to DGND with a 50 mil trace near the finger edge of the board. CRD4201-2S Figure 7. ACR Connector 13 CRD4201-2S Figure 8. PCB Layout: Top Assembly Drawing 14 DS483RD2SA1 CRD4201-2S Figure 9. PCB Layout: Top Layer DS483RD2SA1 15 CRD4201-2S Figure 10. PCB Layout: Bottom Layer 16 DS483RD2SA1 CRD4201-2S ( Figure 11. PCB Layout: Drill Drawing DS483RD2SA1 17 CRD4201-2S Figure 12. PCB Layout: Top Silkscreen 18 DS483RD2SA1 5. BILL OF MATERIALS DS483RD2SA1 Manufacturer Part Number Description KEMET C0805C104K5RAC CAP, 0805, X7R, .1uF, 10%, 50V KEMET KEMET KEMET NO POP NO POP NO POP C0805C103K5RAC CAP, 0805, X7R, .01uF, 10%, 50V C0805C102K5GAC CAP, 0805, C0G, 1000pF, 10%, 50V C1206C225M8VAC CAP, 1206, Y5V, 2.2uF, 20%, 10V PANASONIC ECE-V1VS2R2SR CAP, SMT A, ELEC, 2.2uF, 20%, 35V PANASONIC KEMET KEMET PANASONIC ECE-V1CA100R C0805C105M8VAC C0805C101J5GAC ECE-V1ES4R7SR CAP, SMT A, ELEC, 4.7uF, 20%, 25V CAP, 0805, C0G, 100pF, 5%, 50V CAP, 0805, Y5V, 1uF, 20%, 10V CAP, SMT B, ELEC, 10uF, 20%, 16V KEMET NO POP KEMET NO POP LZR ELECTRONICS MOLEX C0805C272K5RAC NO POP C0805C220K5GAC NO POP SJ372 CAP, 0805, X7R, 2700pF, 10%, 50V NO POP CAP, 0805, C0G, 22pF, 10%, 50V NO POP CONN, 1/8" DOUBLE SW. STEREO PHONE JACK 70553-0003 HDR, 4X1, 0.025" PIN, 0.1" CTR, 15u" AU Item Quantity Reference 1 14 C1,C2,C3,C4,C6,C31,C41, C42,C52,C59,C60,C62,C64, C65 2 1 C5 3 6 C7,C8,C10,C11,C12,C13 4 1 C9 5 7 C14,C15,C29,C45,C46,C57, C58 6 10 C16,C17,C21,C22,C23,C25, C30,C33,C34,C35 7 1 C18 8 6 C19,C20,C26,C27,C50,C51 9 1 C24 10 10 C28,C36,C37,C40,C48,C49, C61,C63,C66,C67 11 3 C32,C38,C39 12 3 C43,C44,C56 13 2 C53,C47 14 2 C54,C55 15 1 J1 CRD4201-2S 16 4 J2,J4,J5,J7 19 20 LZR ELECTRONICS NO POP LZR ELECTRONICS NO POP TOSHIBA TDK HF50ACB321611-T IND, FBEAD, 1206, 31@100MHz, 25% TOTX173 CONN, OPTICAL TOSLINK TRANSMITTER NO POP NO POP SJ373 CONN, 1/8" NON-SW. STEREO PHONE JACK NO POP NO POP SJ374 CONN, 1/8" SINGLE SW. STEREO PHONE JACK TDK NONE EDGE CONNECTOR 9C08052A0R00J 9C08052A47R0J 9C08052A1000J 9C08052A6801F ACR BUS CONNECTOR HF50ACB321611-T NO POP PHILIPS PHILIPS PHILIPS PHILIPS RES, SO, 0805, 0, 5%, 1/10W, METAL FILM RES, SO, 0805, 47, 5%, 1/10W, METAL FILM RES, SO, 0805, 100, 5%, 1/10W, METAL FILM RES, SO, 0805, 6.8K, 1%, 1/10W, METAL FILM PHILIPS 9C08052A4702J RES, SO, 0805, 47K, 5%, 1/10W, METAL FILM PHILIPS PHILIPS PHILIPS PHILIPS PHILIPS NO POP 9C08052A2201J 9C08052A1501J 9C08052A4701J 9C08052A5600J 9C08052A2703J NO POP RES, SO, 0805, 2.2K, 5%, 1/10W, METAL FILM RES, SO, 0805, 1.5K, 5%, 1/10W, METAL FILM RES, SO, 0805, 4.7K, 5%, 1/10W, METAL FILM RES, SO, 0805, 560, 5%, 1/10W, METAL FILM RES, SO, 0805, 270K, 5%, 1/10W, METAL FILM NO POP 17 1 J3 18 1 J6 19 2 J8,J10 20 2 J9,J11 21 1 J12 22 9 L1,L2,L3,L4,L5,L6,L8,L9, L10 23 1 L7 24 1 P1 25 4 R1,R28,R51,R58 26 2 R2,R53 27 4 R3,R7,R11,R17 28 14 R4,R6,R8,R10,R13,R16,R18, R19,R20,R22,R24,R25,R26, R27 29 7 R5,R9,R12,R21,R29,R34, R35 30 1 R14 31 1 R15 32 3 R23,R55,R56 33 2 R30,R31 34 2 R33,R32 35 10 R36,R37,R38,R39,R40,R41, CRD4201-2S DS483RD2SA1 R48,R49,R52,R57 36 PHILIPS PHILIPS PHILIPS NO POP CIRRUS LOGIC CS4201-JQ IC, TQFP, AC '97 2.1 SERIAL CODEC W/ HP AMP + SRC IC, SO, SOIC8, DAC, STEREO NO POP IC, SO, SOIC8, 34072, SINGLE SUPPLY DUAL OP AMP IC, SO, SOIC8, SERIAL EEPROM, 4 x 256 x 8 IC, SO, +5V REGULATOR, DPAK, 4%, 500mA NO POP NO POP NO POP 9C08052A8201J RES, SO, 0805, 8.2K, 5%, 1/10W, METAL FILM 9C08052A2203J RES, SO, 0805, 220K, 5%, 1/10W, METAL FILM 9C08052A2702F RES, SO, 0805, 27K, 1%, 1/10W, METAL FILM 2 R42,R46 PHILIPS 9C08052A3302F RES, SO, 0805, 33K, 1%, 1/10W, METAL FILM 37 2 R43,R47 38 2 R45,R44 DS483RD2SA1 CIRRUS LOGIC NO POP MOTOROLA MC34072D NO POP CS4334-KS Microchip MOTOROLA NO POP NO POP MC78M05CDT 24LC09-I/SN 39 1 R50 40 1 R54 41 1 U1 42 1 U2 43 1 U3 44 1 U4 45 1 U5 46 1 U6 47 1 Y1 CRD4201-2S 21 |
Price & Availability of CRD4201-2S
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