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Micro Audio Jukebox HDD1420/1620/1630/1635/1830/1835 All version Service Manual TABLE OF CONTENTS Chapter Technical Specification and Service hints.…………………1 Safety Instructions………………………………………………2 Instructions for Use……………………………………………. 3 Mechanical Instructions………………………………………. 4 Exploded view and Service parts list…………………...….. 5 Troubleshooting flow.…………………………………………. 6 Overall Block diagram…………………………………………. 7 Overall Electrical diagram……………………………………. 8 IRIS CODE…………………………………………………………9 Revision list……………………………………………………… 10 ©Copyright 2005 Philips Consumer Electronics B.V. Eindhoven, The Netherlands All rights reserved. No part of this publication may by reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronics, mechanical, photocopying, or otherwise without the prior permission of Philips 3141 785 30705 1.0 TECHNICAL SPECIFICATION and SERVICE HINTS General Dimensions (WxHxD) : Weight : Output power : Frequency response : Equalizer : Hard disk : Capacity : Display : Supported playback format 53.7 X 86.0 X 16.3 mm (2.11 x 3.39 x 0.64 inch) 87 g 2 x 5 mW (16 Ohm) 20 – 16 000 Hs 5-bands 4GB – 6GB 128 x 128 pixels, 65K color Backlight : Battery : White 630 mAh Li-Ion rechargeable battery Battery life time: File transfer rate using USB2.0 : Battery charging current >16hrs >4Mbyte Maximum charging time : 4hr Battery cutoff voltage: Connections: 3.7V Headphone Line Out Jack Power Connector Yes ID3-tag support : USB PC Connectivity : File Transfer via Windows Media Player 10 for music and picture playback or Windows Explorer for general data (music playback disabled) Firmware and software upgrades 450mA Battery level detection Detection Level 4-step to 3-step voltage 3-step to 2-step voltage 2-step to 1-step voltage Force Power Off voltage 8 - 320 Kbps and VBR 32 - 192 Kbps 8, 11.025, 16, 22.050 32, 44.1, 48 MP3 : WMA : Sample rates : Typ. 3.6 – 3.7V 3.53 – 3.6V 3.48 – 3.53V <3.5V 1. If you have not already installed the Device Manager download the latest version of the Device Manager from http://www.philips.com/support. You may need to enter your language preference and the model number e.g.HDD1630, to access the Device/Firmware Manager upgrade file. 2. Download the zip file into a temp folder in your computer. Unzip the file and then double click the Setup.exe file to start the installation of the Device Manager. 3. Once the installation is complete, connect the GoGear to the power supply with the AC/DC adapter. 4. Make sure all other applications such as Philips Device plug-in, Windows Media Player or Windows Explorer that accessing the device are closed or else Device Manager will not recognize the device. Launch the Philips Device Manager at Start->Programs>Philips Device Manager->Philips Device Manager on your PC. 5. Click Current consumption DC-IN SUPPLY (4.5V) Battery Charging Current 450mA BATT. SUPPLY (3.7V) Power Off 300uA Idle 30mA Playback without HDD reading 30mA Playback with HDD reading 345mA File transfer using USB2.0 350mA Update in the dialogue box Headphone out (headphone output load 2x16 ohm) Maximum output power : Frequency response : SNR (A-wght) : THD (1kHz) : Left-Right Channel Separation : Left-Right Channel Balance : 10 mW 45Hz – 16kHz (16Ω load) 20Hz – 16kHz (15kΩ load) 85dB 0.1% 45dB typ. (1k Hz) 40dB typ. (20Hz – 16kHz) <1.0dB (1k Hz) <2.0dB (20Hz – 16kHz) the Philips Device Manager will detect the connection of your GoGear and the application will automatically check on the server to see if an update is available and prompt user to download the updated firmware. Click YES to start the downloading. 1.0 TECHNICAL SPECIFICATION and SERVICE HINTS upgrade. 9. The Device Manager will close automatically once the success message is displayed. Close all opened application and then unplug your GoGear. 10. Once the GoGear micro jukebox is disconnected from 6. 7. A status bar will show the downloading progress of the firmware. Once the downloading is complete the application will prompt you to install the update onto your GoGear. Click YES to confirm The application will show the status of updating and at the end you need to click OK to complete the update. (Please do not disconnect the jukebox during the upgrading process as this interruption may damage the firmware!) 8. Follow all screen instructions to complete the firmware the computer, the display will show “Firmware Upgrading” for a couple of seconds and then start up as usual. If the message does not disappear after 2 minutes, do a soft reset by pressing and holding the Power on/off key and the volume + key for a couple of seconds. Repair the firmware with Device Manager 1. If you have not already installed the Device Manager download the latest version of the Device Manager from http://www.philips.com/support. You may need to enter your language preference and the model number e.g.HDD1630, to access the Device/Firmware Manager upgrade file. 2. Download the zip file into a temp folder in your computer. Unzip the file and then double click the Setup.exe file to start the installation of the Device Manager. 3. Once the installation is complete, connect the GoGear to the power supply with the AC/DC adapter. 4. Make sure all other applications such as Philips Device plug-in, Windows Media Player or Windows Explorer that accessing the device are closed or else Device Manager will not recognize the device. Launch the Philips Device Manager at Start->Programs>Philips Device Manager->Philips Device Manager on your PC. 1.0 TECHNICAL SPECIFICATION and SERVICE HINTS Service Hints Re Rebuild database, firmware and Microsoft (Plays For Sure) copy protection key after replacement of hard disk or PCBA IMPORTANT: All devices having the hard disk or PCBA replaced must have the firmware image, database and the Plays For Sure key rebuilt before returning to customers. 5. 6. Click YES to start the downloading. A status bar will show the downloading progress of the firmware. Once the downloading is complete the application will prompt you to install the update onto your GoGear. 1. Connect the GoGear to the power supply and the computer with the combined charger and USB cable. 2. Reset the device by pressing and holding down the Volume + and the power on/off slider switch until the display turns off. 3. While the device restart, press and hold the volume – key until the Philips splash screen disappear and showing the connection icon to put the device in USB Mass Storage Device mode. 4. The device will be listed as a new drive named GOGEAR or MDJUKEBOX in Windows Explorer. 5. Launch Windows Explorer and then quick format the new drive to the file system FAT32. Once the repair is complete a dialogue box will pop up; click OK and unplug the GoGear from the computer. IMPORTANT: All music & content of your micro jukebox will be erased once the factory setting is restored. 7. Follow all screen instructions to complete the repair. 8. The Device Manager will close automatically once the success message is displayed. Close all opened application and then unplug your micro jukebox. 9. Once the GoGear micro jukebox is disconnected from the computer, the display will show “Firmware Upgrading” for a couple of seconds and then start up as usual. 1.0 TECHNICAL SPECIFICATION and SERVICE HINTS IMPORTANT: All music & content of your micro jukebox will be erased once the device is formatted. 6. Unzip and copy all the content of the shipment ui files of the corresponding model version into the root directory of the device. (CD ROM with the Shipment ui files will be provided to repair workshops.) 7. Disconnect the GoGear from the computer by clicking on the safely remove hardware on the task tray. icon 8. Wait until the display shows “Burn success”. 9. Reset the device again by pressing and holding down the Volume + and the power on/off slider switch until the display turns off. 10. Upgrade the firmware of the device to the latest version by following the procedure as mentioned under “Firmware software upgrades” 2.0 SAFTETY INSTRUCTIONS GB NL ESD WARNING Alle IC’s en vele andere halfgeleiders zijn gevoelig voor electrostatische ontladingen (ESD). Onzorgvuldig behandelen tijdens reparatie kan de levensduur drastisch doen verminderen. Zorg ervoor dat u tijdens reparatie via een polsband met weerstand verbonden bent met hetzelfde potentiaal als de massa van het apparaat. Houd componenten en hulpmiddelen ook op ditzelfde potentiaal. All ICs and many other semi-conductors are susceptible to electrostatic discharges (ESD). Careless handling during repair can reduce life drastically. When repairing, make sure that you are connected with the same potential as the mass of the set via a wrist wrap with resistance. Keep components and tools also at this potential. F WAARSCHUWING ATTENTION I Tous les IC et beaucoup d’autres semi-conducteurs sont sensibles aux décharges statiques (ESD). Leur longévité pourrait être considérablement écourtée par le fait qu’aucune précaution n’est prise à leur manipulation. Lors de réparations, s’assurer de bien être relié au même potentiel que la masse de l’appareil et enfiler le bracelet serti d’une résistance de sécurité. Veiller à ce que les composants ainsi que les outils que l’on utilise soient également à ce potentiel. D AVVERTIMENTO WARNUNG Tutti IC e parecchi semi-conduttori sono sensibili alle scariche statiche (ESD). La loro longevità potrebbe essere fortemente ridatta in caso di non osservazione della più grande cauzione alla loro manipolazione. Durante le riparazioni occorre quindi essere collegato allo stesso potenziale che quello della massa dell’apparecchio tramite un braccialetto a resistenza. Assicurarsi che i componenti e anche gli utensili con quali si lavora siano anche a questo potenziale. GB Safety regulations require that the set be restored to its original condition and that parts which are identical with those specified, be used. “Pour votre sécurité, ces documents doivent être utilisés par des spécialistes agréés, seuls habilités à réparer votre appareil en panne”. NL Veiligheidsbepalingen vereisen, dat het apparaat bij reparatie in zijn oorspronkelijke toestand wordt teruggebracht en dat onderdelen, identiek aan de gespecificeerde, worden toegepast. CLASS 1 LASER PRODUCT 3122 110 03420 F Les normes de sécurité exigent que l’appareil soit remis à l’état d’origine et que soient utiliséés les piéces de rechange identiques à celles spécifiées. GB Warning ! Invisible laser radiation when open. Avoid direct exposure to beam. S Varning ! Osynlig laserstrålning när apparaten är öppnad och spärren är urkopplad. Betrakta ej strålen. SF Varoitus ! I Le norme di sicurezza esigono che l’apparecchio venga rimesso nelle condizioni originali e che siano utilizzati i pezzi di ricambio identici a quelli specificati. Avatussa laitteessa ja suojalukituksen ohitettaessa olet alttiina näkymättömälle laserisäteilylle. Älä katso säteeseen! DK Advarse ! "After servicing and before returning set to customer perform a leakage current measurement test from all exposed metal parts to earth ground to assure no shock hazard exist. The leakage current must not exceed 0.5mA." Usynlig laserstråling ved åbning når sikkerhedsafbrydere er ude af funktion. Undgå udsaettelse for stråling. 2.0 SAFETY INSTRUCTIONS Battery Handling Guideline Since the battery is packed in soft package, to ensure its better performance, it’s very important to carefully handle the battery 2.1 Soft Aluminium foil The soft aluminum packing foil is very easily damaged by sharp edge parts such as Ni-tabs, pins and needles. • Don’t strike battery with any sharp edge parts • Trim your nail or wear glove before taking battery • Clean worktable to make sure no any sharp particle 2.2 Sealed edge Sealing edge is very flimsy • Don’t bend or fold sealing edge 2.3 Folding edge The folding edge is form in battery process and passed all hermetic test. • Don’t open or deform folding edge 2.4 Tabs The battery tabs are not so stubborn especially for aluminum tab. • Don’t bend tab 2.5 Mechanical shock • Don’t Fall, hit, bend battery body 2.6 Short Short terminals of battery is strictly prohibited, it may damage battery. 3.0 INSTRUCTION FOR USE Power Connector 4.0 MECHANICAL INTRUCTIONS Set Disassembly 1. Add a tape over the knobs on two side before opening the set to prevent the knobs will fall out the set after open. 2. Remove the cosmetic screw on the back cover by Allen Key. 3. Finger inset the gap of the top cover assy and the housing, and then carefully lift up the top cover. 4. Generally remove the housing. 4.0 MECHANICAL INTRUCTIONS 5. Remove the 4 screws on four corners. See pointed arrows. 6. Carefully pull out the mainboard assy, which include the HDD drive, LCD, battery and PCBA board. 7. Disconnect the flex cable from the front touch screen module carefully, then free the top cover assy. 8. Lift up the double side tape of the side buttons. 4.0 MECHANICAL INTRUCTIONS 9. Turn to the bottom side. 10. Open up the metal shielding and disconnect the cable connected to the battery. Carefully disassemble the mini mic as circled in the picture from the plastic audio jack holder. 11. Remove the battery part form PCBA. 12. Lift up the hard disk and disconnect the flex cable underneath from the PCBA. 4.0 MECHANICAL INTRUCTIONS 13. After remove both battery and hard disk. 113 102 101 103 112 106 118 114 108 109 110 111 112 113 114 107 108 100 100 101 102 103 104 105 106 107 111 115 104 115 116 117 118 105 109 110 116 100 102 105 101 106 100 101 102 103 104 105 106 107 112 113 116 115 103 108 109 110 111 112 113 114 104 107 115 116 117 118 114 118 118 117 6.0 TROUBLESHOOTING FLOW SYMPTOM 1: NO POWER Open up the unit, unplug battery connector and reconnect again 3 +1.2V 1 4 XM2_ROM.RDY XM2_MIO.RDY XM2_DQML# XM2_DQMH# XM2_ROM.CS1# 4 8 TP505 1 TP504 1 XM2_CKE Cradle_in_SW# 6 MBID0 MBID1 MUTE MBID2 4/8 IR function remove TouchPad Power Enable 6 4,7 RESET# XM2_ROM.RDY 5 1 1 2 R604 100K 0402 1 2 1 1 2 1 1 1 C37 0.1U 0402 16V +80-20% C46 C60 2 0.1U 0402 16V +80-20% 2 2 C51 2 C58 0.1U/NA 0402 16V +80-20% 2 1 C69 Remove damp Res. 1 Place Close Each Power Pin XTAL_32K.IN 0.1U 0402 16V +80-20% 0.1U 0402 16V +80-20% 10U 0805 6.3V 10% B U1 T3 U2 R4 1 1 R590 U14 S2_R 2 T14 U15 R15 0 0402 1 1 TP9 TP3 USBID-DEV/HOST# DC-DC_RUN 5 STAT2 5 TP11 AT3_PWR.OFF OC_CRL_PWR# C68 0.1U 0402 16V +80-20% C55 0.1U 0402 16V +80-20% 6 1 A K REMOTE_JACK 4,6 5 1 TP507 10U 0805 6.3V 10% R61 0402 1M 5% 1 8 D511 C63 0.1U 0402 16V +80-20% ADC_EN#_M 5 1 1 C64 0.1U 0402 16V +80-20% Q502A AO7600 SC70_6_EIAJ 1 C66 0.1U 0402 16V +80-20% 2 C38 0.1U 0402 16V +80-20% 2 C39 0.1U 0402 16V +80-20% 27M_OFF# unused_only pull high STAT1 5 Current_Set Place Close Each Power Pin C67 7 VCC_BATR U16 REMOTE_JACK_D U17 R557 T15 0402 BKLT_PWM 8 T16 GP4 2 0/NA 1 GPIO4 4,7 R560 0 0402 B16 A16 CSC 2 1 B15 OC_CRL_PWR# A15 +3.3V 1 AT3_HA2 7 AT3_HA1 7 AT3_HA0 7 AT3_HIOW# 7 AT3_HIOR# 7 AT3_HIORDY 7 AT3_HRESET# 7 AT3_HIRQ.0 7 AT3_HIRQ.1 7 AT3_HDMARQ 7 AT3_HDMACK# 7 AT3_HCS0# 7 AT3_HCS1# 7 1 K1 K3 J3 R3 T1 J2 H3 J4 J1 R2 T2 L4 L3 2 When Power-off reduce the power loss R67 39K 0402 1% 2 3 Q502B 7 4 AO7600 SC70_6_EIAJ Battery Shuntdown point detect Now:3.5V A +3.3V 2 1 with FM w/o FM R608 100K 0402 For EMI & close PP5022 R606 100K 0402 2 2 2 B17 E16 E14 AVDD E9 F6 F9 F12 J5 J6 J12 J13 M6 M9 M12 N9 7 MBID0 0 0 MBID1 0 0 MBID2 0 1 R556 10K 0402 1% REMOTE_JACK_D Title Phoenix DVT R0D 2 2 1 R550 CD3_BCLK CD3_C2PO CD3_DATA CD3_LRCK AT3_HD[0:15] 6/24 2 1 MBID0 MBID1 MBID2 1 0402 XM2_MIO.RDY 1% 6.81K 2 1K 0402 5% 2 1 2 R554 2 R603 100K/NA 0402 1 1 1 +3.3V A ADC_AIN.0 ADC_AIN.1 PM3_PWM0 PM3_PWM1 IR3_RXD IR3_TXD C16 C15 RESET# pin R15=>LCD_RS UA3_TXD UA3_RXD UA3_CTS UA3_RTS G4 H1 TP_PWR# OT3_Y.UD OT3_Y.CK OT3_X.UD OT3_X.CK 4/8 D1 XM2_SDR_CS0# 7 7 C569 0.1U 0402 16V +80-20% Check=>Reserved XTAL_33M.IN AT3_HD15 AT3_HD14 AT3_HD13 AT3_HD12 AT3_HD11 AT3_HD10 AT3_HD9 AT3_HD8 AT3_HD7 AT3_HD6 AT3_HD5 AT3_HD4 AT3_HD3 AT3_HD2 AT3_HD1 AT3_HD0 S1 4 XM2_SDR_CS1# 4 4 1 0 R586 0402 5% 5 4 4 CLK_SYS.OUT XM2_RE_N XM2_WE_N XM2_ROM.RDY XM2_MIO.RDY XM2_WMSK1 XM2_WMSK2 XM2_CS.A# XM2_CS.B# XM2_CS.C# XM2_CS.D# XM2_CKE TP509 4 C563 1U/NA 0603 G2 XM2_ROM.RD# XM2_ROM.WR# XM2_ROM.RDY 1 VBUS RC removed 2 XTAL_32K.IN XTAL_24M.OUT XTAL_24M.IN HOLD xxxxx ACK PWR_ON_OFF# View xxxxx xxxxx CLK DATA Like Music Volume down Volume up Recording S2 2 4 4 4 D7 C8 C9 B14 A14 B7 A5 C14 B13 A8 B8 A7 CLK_24M.CODEC_R TP13 TP506 P2 R1 P1 N2 P3 N1 M2 N3 P4 N4 M1 L2 M3 L1 M4 K2 4,6,7,8 6 Battery_ID:Low=>Plug-In 7 1 1 I2C_CLK C G1 C57 10P 0402 +/-10% 50V CLK_SYS.OUTR AT3_HA2 AT3_HA1 AT3_HA0 AT3_HIOW# AT3_HIOR# AT3_HIORDY AT3_HRESET# AT3_HIRQ.0 AT3_HIRQ.1 AT3_HDMARQ AT3_HDMACK# AT3_HCS0# AT3_HCS1# CLK_24M.CODEC C20 10P 0402 +/-10% 50V 2 0402 1 I2C_C_EN 2 KSI12 KSI11 KSI10 KSI9 KSI8 KSI7 KSI6 KSI5 KSI4 KSI3 KSI2 KSI1 KSI0 D2 CLK_SYS.OUT 1 4 33 0402 5% 2 AT3_HD15 AT3_HD14 AT3_HD13 AT3_HD12 AT3_HD11 AT3_HD10 AT3_HD09 AT3_HD08 AT3_HD07 AT3_HD06 AT3_HD05 AT3_HD04 AT3_HD03 AT3_HD02 AT3_HD01 AT3_HD00 100K 6 6 6 6 2 R55 XM2_MA25 XM2_MA24 XM2_MA23 XM2_MA22 XM2_MA21 XM2_MA20 XM2_MA19 XM2_MA18 XM2_MA17 XM2_MA16 XM2_MA15 XM2_MA14 XM2_MA13 XM2_MA12 XM2_MA11 XM2_MA10 XM2_MA09 XM2_MA08 XM2_MA07 XM2_MA06 XM2_MA05 XM2_MA04 XM2_MA03 XM2_MA02 XM2_MA01 XM2_MA00 R566 2M 0402 1% 33 0402 5% 2 2 PSEL1 BKL_ON XM2_MA20_1 XM2_MA19 XM2_MA18/WE# XM2_MA17/CAS0# XM2_MA16/RAS0# XM2_MA15 XM2_MA14 XM2_MA13 XM2_MA12 XM2_MA11 XM2_MA10 XM2_MA9 XM2_MA8 XM2_MA7 XM2_MA6 XM2_MA5 XM2_MA4 XM2_MA3 XM2_MA2 XM2_MA1 B 1 D3 D1 E2 E1 F2 F3 E3 F1 A6 C6 C7 A9 B9 B10 C10 A10 C11 D11 A11 C12 B11 A12 C13 D13 A13 B12 CLK_SUS.OUT XTAL_32K.OUT XTAL_32K.IN XTAL_24M.OUT XTAL_24M.IN XTAL_33M.OUT XTAL_33M.IN R538 5% VBUS_Detect 1 8 4 4 4 4 5 PSEL1 BKL_ON XM2_MA20_1 XM2_MA19 XM2_MA18/WE# XM2_MA17/CAS0# XM2_MA26 XM2_MA25 BZZ_PWM 1 1 R576 1M 0402 1% 6 USB wakeup&detect 2 XM2_MA[1..15] XM2_MA[1..15] XM2_MA16/RAS0# XM2_MA26 XM2_MA25 BZZ_PWM XM2_MD15 XM2_MD14 XM2_MD13 XM2_MD12 XM2_MD11 XM2_MD10 XM2_MD09 XM2_MD08 XM2_MD07 XM2_MD06 XM2_MD05 XM2_MD04 XM2_MD03 XM2_MD02 XM2_MD01 XM2_MD00 6,7 R51 I2S_SCLK I2S_DOUT I2S_SDIN I2S_LRC TP10 4,6,7,8 VBUS 2 1 4 4 4 6 D2 C1 C2 B1 B2 B3 A1 C3 C5 A4 B6 C4 B4 A3 B5 A2 6 6 6 6 6 6,7 6 1 U4 T4 U3 T5 P5 P6 H2 F4 6 BZZ_CRL# 1 XM2_MD15 XM2_MD14 XM2_MD13 XM2_MD12 XM2_MD11 XM2_MD10 XM2_MD9 XM2_MD8 XM2_MD7 XM2_MD6 XM2_MD5 XM2_MD4 XM2_MD3 XM2_MD2 XM2_MD1 XM2_MD0 I2S_SCLK I2S_DOUT I2S_DIN I2S_LRC I2S_RST CLK_DEV.OUT SPDIF_IN SPDIF_OUT I2C_DAT 5 0402 R600 2 TP8 4 XM2_MD[0..15] XM2_MD[0..15] RM3_SCL RM3_SDA 1 1 LEA VBUS_Detect ADC_EN# PJ_In I2C_CLK_IN I2C_DAT_IN 2 1 R6 U5 0 2 2 5 Pin R14=>REMOTE_INT U13=>TP510 (Line_in_SW) T13=>VCC_AC R13=>RTC_WAKE# U12=>LEA T12=>VBUS_Detect R12=>ADC_EN# P12=>PJ_In PJ_In BZZ_CRL#_R 1 TP2 LEARNING PJ_In R572 Value change ANT_SW1# Power_Out_C BM3_KSI5 BM3_KSI4 BM3_KSI3 BM3_KSI2 BM3_KSI1 BM3_KSI0 1 2 1 C 4 R14 U13 T13 R13 U12 T12 R12 P12 REMOTE_INT BM3_KSI.07 BM3_KSI.06 BM3_KSI.05 BM3_KSI.04 BM3_KSI.03 BM3_KSI.02 BM3_KSI.01 BM3_KSI.00 1% 0402 For EMI Close to PP5022 1 4 BM3_KSI12 BM3_KSI11 LCD3_AA0 LCD3_CS3#/DLE LCD3_CS2#/CLE LCD3_CS1#/ALE LCD3_RST# LCD3_RD# LCD3_R/W# 7 7 2 Cradle_In_S R542 100 1 R543 1 1 1% 0402 5.76K 2 6 6 HOLD LCM_SE (1.9"LCD) TP508 0402 5 I2C_CLK_IN 0 1 2 BM3_KSI7 BM3_KSI6 BM3_KSI5 BM3_KSI4 BM3_KSI3 BM3_KSI2 BM3_KSI1 BM3_KSI0 AC_PWR I2C_DAT_IN 2 5% Wake_up# GPIO1 7 GPIO2 7 U9 R9 U8 T9 P8 R8 T8 U7 D 1 R567 2M 0402 1% 0402 2 R565 2 0 1 R552 LEA Power_Request# BZZ_CRL#_R Check 5 100 0402 1% 8 8 8 8 8 8 8 8 1 LCD_ON Cradle_in# LCD_RST# R10 T11 U10 P10 T10 U11 R11 T6 T7 R7 R5 U6 2 8 8 8 2 7 8 BM3_KSO.04 BM3_KSO.03 BM3_KSO.02 BM3_KSO.01 BM3_KSO.00 K17 J15 J14 L17 K16 K15 L14 L15 1 TP503 LCD_CS# ACPG#1 ACPG#1 +3.3V XTAL_33M.IN 2 4 M17 L16 N17 J16 1 I2S_SDIN 100K 0402 5% 2 1% 0402 1M R577 1 4 4 4 4 C543 0.1U/NA 0402 16V AVSS 2 1 BM3_KSI9 FW3_CTL1 FW3_CTL0 FW3_LREQ FW3_SCLK A17 D16 4/8 Pin Swap Change for PP5022 difference with PP5020 Ckose to U510(PP5022) D15 T17 R16 P15 P14 M15 N16 P17 M16 N15 P16 N14 R17 BM3_KSI10 BM3_KSI9 BM3_KSI8 VDD_CORE_1 VDD_CORE_2 VDD_CORE_3 VDD_CORE_4 VDD_CORE_5 VDD_CORE_6 VDD_CORE_7 VDD_CORE_8 VDD_CORE_9 VDD_CORE_10 VDD_CORE_11 VDD_CORE_12 6 6,7 6 ACK--- PWR_ON_OFF# View VDD_IO_1 VDD_IO_2 VDD_IO_3 VDD_IO_4 VDD_IO_5 VDD_IO_6 VDD_IO_7 VDD_IO_8 VDD_IO_9 VDD_IO_10 VDD_IO_11 VDD_IO_12 U510 VDD_IO_MEM_1 VDD_IO_MEM_2 VDD_IO_MEM_3 VDD_IO_MEM_4 VDD_IO_MEM_5 VDD_IO_MEM_6 VDD_IO_MEM_7 VDD_IO_M32 E13 G14 H14 K4 K14 M14 N5 N13 P7 P9 P11 P13 D R60 100K 0402 5% 2 2 C561 0.1U 0402 16V +80-20% 2 1 C565 10U 0805 6.3V 10% R588 10K 0402 5% ACPG#1 10 0603 1 2 2 +3.3V +3.3V 1 R568 1 C559 10U 0805 6.3V 10% R541 1 C558 0.1U 0402 16V +80-20% 2 1 1 +3.3V 2 2 2 10U 0805 6.3V 10% 1% 0402 10 1 C61 2200P 0402 10% 50V C59 C566 10U 0805 6.3V 10% 2 2 C47 2200P 0402 10% 50V 1 1 1 C48 2200P 0402 10% 50V 2 1 C54 2200P 0402 10% 50V 2 1 2 C53 2200P 0402 10% 50V 2 1 1 2 C62 2200P 0402 10% 50V 1 10 0402 1% Place Close Each Power Pin 1 +1.2V +1.2V_AVDD 2 1 +1.2V 2 R583 1 2 4 +1.2V 2 5 4 3 2 Document PP5022 / USB2.0 Number Date: 星期四, 八月 04, 2005 Rev R00 Sheet 1 3 of 8 5 4 3 2 1 Only For PP5022 Ver.B CKE reset issue Can be eliminate 3 XM2_MD[0..15] 0/NA 0402 2 5% 3 3 3 R53 C 2 1 XM2_BYTE# 3,7 100K/NA 0402 5% F1 G1 A4 F6 B4 XM2_ROM.CS1# XM2_ROM.RD# XM2_ROM.WR# 1 RESET# 2 CE OE WE BYTE RESET 0/NA 0402 R579 5% 0/NA A3 RY/BY 2 BOOT OPTION ADDRESS A19 0 1 2 XM2_ROM.RDY 0402 5% 3 1 C49 0.1U 0402 16V +80-20% 2 C45 0.1U 0402 16V +80-20% 1 1 C52 0.1U 0402 16V +80-20% 2 NC0 C40 0.1U 0402 16V +80-20% 2 E2 Place Close Each Power Pin C560 0.1U 0402 16V +80-20% 1 3 3 2 XM2_MA15 XM2_MA14 3 Power Supply Voltage:1.65V~1.95V ADDRESS A26 A25 0 0 0 1 1 0 1 1 Flash: SST(SST39WF400A-90-4C,1.8V)=283439400001 AMIC(A29L400UG-70F,3.3V)=283480190001 3 3 3 = = = = Serial (CPU->COP)(DEFAULT) CPU only (CPU) COP only (COP) Parallel (CPU||COP) C43 0.1U 0402 16V +80-20% C36 0.1U 0402 16V +80-20% 100K*4 RP505 0804 3 XM2_MA5 3 XM2_MA14 3 XM2_MA15 XM2_MA16/RAS0# SDRAM Pin:BYTE# need to pull high to VCC_MEM +1.8V 1 1 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 0 = IDE0 (DEFAULT) 1 = IDE 1 G8 G7 BA1 BA0 1 CLK_SYS.OUT 3 XM2_DQMH# 3 XM2_DQML# 3 XM2_MA18/WE# 3 XM2_MA17/CAS0# 3 XM2_MA16/RAS0# 3 XM2_SDR_CS0# 3 2 0 0603 XM2_CKE_RESET# F3 F2 F1 E8 F9 F7 F8 G9 +3.3V R575 1 Replace for Ver.C CKE CLK UDQM LDQM WE CAS RAS CS D 2 0/NA 0603 2 R563 0/NA 0402 5% 1 XM2_MA1 XM2_MA2 XM2_MA3 XM2_MA4 XM2_MA5 XM2_MA6 XM2_MA7 XM2_MA8 XM2_MA9 XM2_MA10 XM2_MA11 XM2_MA12 XM2_MA13 R555 1 SST39WF400A-90-4C BGA48_08MM_2 EXT ROM0 (0000:0000) (DEFAULT) EXT ROM1 (0800:0000) BOOTROM UART BOOTROM OTHER A8 B9 B8 C9 C8 D9 D8 E9 E1 D2 D1 C2 C1 B2 B1 A2 R587 1 XM2_MD0 XM2_MD1 XM2_MD2 XM2_MD3 XM2_MD4 XM2_MD5 XM2_MD6 XM2_MD7 XM2_MD8 XM2_MD9 XM2_MD10 XM2_MD11 XM2_MD12 XM2_MD13 XM2_MD14 XM2_MD15 24.000MHZ 24.576MHZ 48.000MHZ RESERVED 4/12 For Sub items 2 U509 BOOT CLOCK SOURCE (HARDWARE SELECT) ADDRESS A17 A16 0 0 0 1 1 0 1 1 R578 100K 0402 5% A7 B3 C7 D3 0 1 XM2_MA20_1 XM2_MD0 XM2_MD1 XM2_MD2 XM2_MD3 XM2_MD4 XM2_MD5 XM2_MD6 XM2_MD7 XM2_MD8 XM2_MD9 XM2_MD10 XM2_MD11 XM2_MD12 XM2_MD13 XM2_MD14 XM2_MD15 H6 H1 3 XM2_MA16/RAS0# XM2_MA17/CAS0# XM2_MA18/WE# 3 XM2_MA19 C4 D3 B3 NC_0 NC_1 NC_2 X 2 G4 2 3 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 NC_3 NC_4 3 3 R50 E1 D1 C1 A1 B1 D2 C2 A2 B5 A5 C5 D5 B6 A6 C6 D6 E6 B2 C3 D4 VCC U508 XM2_MA1 XM2_MA2 XM2_MA3 XM2_MA4 XM2_MA5 XM2_MA6 XM2_MA7 XM2_MA8 XM2_MA9 XM2_MA10 XM2_MA11 XM2_MA12 XM2_MA13 XM2_MA14 XM2_MA15 XM2_MA16/RAS0# XM2_MA17/CAS0# XM2_MA18/WE# XM2_MA19 XM2_MA20 ADDRESS A15 A14 0 0 0 1 1 0 1 1 C567 0.1U 0402 16V +80-20% VCC_MEM X BOOT VECTOR LOCATION (HARDWARE SELECT) C1 0.1U 0402 16V +80-20% 4 SRAM 16-BIT SRAM 32-BIT SDRAM 16-BIT SDRAM 32-BIT A1 E3 J1 1 DESCRIPTION A5 0 1 0 1 Y 5 D ADDRESS A6 X X X X A9 E7 J9 A7 0 0 1 1 VCC A3 B7 C3 D7 RAM TYPE/WIDTH Power Supply Voltage:1.65V~1.95V OE A GND 2 3 1 2 3 RESET# XM2_CKE 1 3,7 2 XM2_MA[1..15] 1 3 XM2_MA19 XM2_MA25 XM2_MA26 1 2 3 4 5 6 7 8 1 RP502 2 3 4 5 6 7 8 C 100K*4 0804 R548 XM2_MA1 1 4/12 Change R & C value for PP5022 ADDRESS A1 0 1 0 = 16 BIT 1 = 8 BIT R2 Let "XM2_MA17/CAS0#" open from FAE note XM2_MA17/CAS0# 1 3 2 R15 1M 0402 5% C70 15P 0402 5% 50V 24MHZ 2 2 RP501 10K*4 0804 R66 1K 0402 5% C75 12P 0402 +/-10% 25V 3 3 3 3 3 R38 10K 0402 5% +3.3V J503 1 2 3 4 5 6 7 8 5 6 7 8 Q1A BC847BPN SC70_6_EIAJ 3 2 4 1 1 2 3 4 3 1 1M 0402 5% 2 1 2 REMOTE Power-On CONTROL 1 +3.3V These net length must be equivalent 1 R16 1 5,6 2 X3 1 2M 0402 1% 1U 0402 6.3V +/-10% 4 Q1B BC847BPN 5 2 2 6 1 R65 1M/NA 0402 5% XTAL_24M.OUT 1 2 R6 2M 0402 1% 3 B R5 2 1 1 2 1 2 REMOTE_JACK C9 2 100K 0402 5% 1 XTAL_24M.IN R4 10M 0402 1% 2 100K 0402 5% B FPC/FFC-12P/0.5MM/NA 6239-012-001-800 REMOTE CONTROL +3.3V +3.3V 2 U9 REMOTE_INT 1 2 3 4 3 RTC_INT# R82 OSCI OSCO INT VSS VDD CLKOUT SCL SDA 8 7 6 5 XTAL_32K.IN_R PCF8563T 1BTV 1 R805 2 GPIO4 GPIO4 1 1 A +3.3V A SOD523 ML414RH/F9C 4/12 3,7 0 0402 I(charge current)< 0.006mA Title 5 C77 10P/NA 0402 +/-10% 50V 4/13 change Footprint size from SOD123(BAT43W-Ir=0.5uA) to SOT523(BAT54T-Ir=2uA) BT1 2 C80 8P 0402 +/-10% 50V K 10K 0402 5% 2 C90 8P 0402 +/-10% 50V 0402 1 3,6 C91 1U 0402 +/-10% 6.3V 1 BTV_R 2 4 2 REMOTE_JACK 1 REMOTE_JACK 2 0 2 I2C_CLK R63 1 R558 For EMI & close U505 (RTC) XTAL_32K.IN 3 I2C_CLK 3,6,7,8 I2C_DAT 3,6,7,8 3 A 32.768K MC146 33 0402 R71 5% 2 X2 1 1 100K/NA 0402 5% 1 G1214 SC70_5 5 2 4 2 R551 100K 0402 1% U511 5% 0402 0 R81 2 - R72 4.7K 0402 5% 8 2 + 3 R549 10K 0402 5% 1 REMOTE_JACK_OP- 2 5 REMOTE_JACK_OP+ 1 1 +3.3V 1 1 0.1U 0402 16V +80-20% 2 1 2 1 C557 2 R547 22K 0402 1% XTAL_32K_V 1 +3.3V 4 3 2 Rev 星期四, 八月 04, 2005 R00 Sheet 1 4 of 8 5 4 3 2 1 dI=Vo*(1-Vo/Vi)/(L*f) Imax=Iomax+(dI/2) 4/14 HD Power IC change from XC6366 to TPS62040 奇力新 SCDS3D16T-3R3T-B 2 2 0402 1% 2 1 MD_G + C539 180P 0402 +/-10% 50V +3.3V 1 VIN LX 2 1 C23 10U 1206 16V 2 3.3UH R74 0 0402 Use low height Cap. Place it to 1.5mm limit region CE/MODE 2 VOUT 5 4 C78 10U 0805 6.3V 1 1 3 2 1 2 1 C76 0.1U 0402 10V 1 50 mil U8 JO6 1 VSS XC9216 SOT25 2 R522 100K SHORT-SMT3 C95 47U 3528 10V R73 100K 0402 1% 2 TPS62040 MLFP10A_05MM_GND C81 10U 1206 16V 2 C536 27P 0402 5% 50V 1 R523 560K 0402 1% 2 5 10 9 2 1 SW_1 SW_0 1 1 2 + 2 R529 100K 0402 5% R598 100K 0402 5% C30 0.1U 0402 10V 2 1 C28 47U 3528 10V 1 IN_+3.3V_HDD1P 1 1 MD_G +3.3V_HDD JO503 2 2 AT3_PWR.OFF +3.3V_HDD1P 1 2 3 D L3 8 7 1 U3 2 3 1 6 4 11 1 IN_+3.3V_HDD1P 2 1 2 1 IN_+3.3VP 2 2 JO2 REGS_PWR 1 1 +3.3VP L10 JO8 2 D Only for XC9217_PWM Case B R531 0/NA 0402 5% 2 272411476505 : TF041-TH-CAP;47U,6.3V, +/-20%,3216,1.6H, (A case),F930J476MAA,SMT 美磊 MSCDRI-2D18-100MG (H=1.8mm) 4/14 CoLayout two select one Vout = 0.5 x [ 1+ (R1 / R2) ] +1.2VP +1.2V L8 JO4 2 1 XC9216 SOT25 R573 100K 0402 FB 5 4 1 SW SMT2=>20mil SMT3=>30mil SMT4=>50mil C65 10U 0805 6.3V 10% 2 1 1 C74 0.1U 0402 10V 2 1 2 R64 0 0402 VSS 1 2 3 2 3.3UH 4 VOUT C73 10U 1206 16V 2 2 1 1 2 5 LX CE/MODE 2 JO7 1 2 2 2 VIN 3 1 1 C56 0.1U 0402 10V U6 1 IN_+1.2VP 2 2 R54 100K 0402 1% 2 C42 10U 1206 16V 1 C IN_+1.8VP 2 1 1 1 +1.8V 2 JO3 REGS_PWR L9 1 2 1 U7 JO5 奇力新 SCDS3D16T-3R3T-B 2 10UH MSCDRI-2D18C 20% 2 1 C79 10U 0805 6.3V C Only for XC9217_PWM 1 +3.3V 2 R48 100K 0402 2 3 3 ADD EMI ESD Protect 1 1 BAT_T BAT_P 1 VDD LDO_3.3V Footprint=SPARKGAP-6 8 3 100K 0402 R594 R27 2 0402 1 0/NA PSEL1 40.2K 0402 1% GND PSEL1 BQ24032 QFN_RHL20 2 2 3 ACPG#1 ACPG#1 1 2 21 R26 20K 0402 1% R530 R40 36K 0402 1% MA/3PX1/ST ACES 87212-0300 Check Pin assignment R35 2.32K 0402 1% A Set Charg Current 450mA 0402 1 2 ACPG# 0/NA Value change Title Phoenix DVT R0D Size C Date: 4 J502 BAT_T 2 Set Adaper power 1A 5 2A/32V C24 0.1U 0402 10V 0402 1K 1% 1 DPPM C32 0.1U 0402 16V Battery Charge cycle Now:4 hours 3 BAT_TS 2 D S 1 12 13 11 10 2 1 3 LEARNING 1 3 2 1 A D3 R36 2 2 C25 10U 0805 10V +80-20% 1 1 10V 2 1 2 C21 0.1U 0402 PSEL Q504 1 2 2 1 15 16 17 5 6 1 1 VBUS 3 2A/32V 1 USB TMR ISET2 STAT1 STAT2 USBPG ACPG CE PSEL/ISET3 LDO OUT_0 OUT_1 OUT_2 BAT_0 BAT_1 1 AC_PWR TP6 20 14 7 2 3 19 18 9 8 AC 1 2 Current_Set STAT1 STAT2 Battery Connector U2 4 K 1 2 3 3 F2 1 3 VDD A 4/7 Remove L15 0402GA Bead filter C31 BAT_P VBUS 2 1 To set Battery Charge Current when Plug-in non-high power PC. To change into 2A AC_PWR LDO_3.3V 1 3 R29 2M 0402 1% 2 R599 1M 0402 1% 2 R31 100K 0402 5% 1 1 1 2 1 1 2 2 R30 100K 0402 5% AC_PWR R34 10K 0402 5% 1U 0402 6.3V +/-10% 2 B VDD 2 For Only AC or USB Input to Auto-Power-On To show the Battery charge status V_Cradle JO502 SPARKGAP_6 JO501 SPARKGAP_6 R41 100K 0402 C22 1U 0402 +80-20% 6.3V AO3415 SOT23_FET D S 1 1 2 Soft-Start C34 0.1U 0402 16V +80-20% 2 1 0402 Q3 2 3 2 VDD 1 Q2 2 3 2 R33 100 B R32 1M 0402 1% 2 1 1 +3.3V Q4 2 G S D 4,6 R44 10K 0402 5% 2 2 RTC_INT# D S 4 1 D506 3 2 Document Number Rev SYSTEM POWER / RESET 星期四, 八月 04, 2005 Sheet 1 R00 5 of 8 5 4 3 +1.8V L6 2 1 120Z/100M/NA 1 2 0402 No AGND=>Check +3.3V 2 2 1 1 1 1 2 2 2 1 L512 C5291 120Z/100M D 2 +1.8V 0402 10U 0805 6.3V 10% +3.3V +3.3V LC->CL to Swap 2 C12 5% 0402 1 R505 10K 0402 1% 2 1 1 1 2 C7 2200P 0402 10% 50V 14 13 R506 10K 0402 1% 220U 4V 3528 C17 10U 0805 10V +80-20% 10K 0402 1% C19 0.1U 0402 16V 1 1 3 I2C_DAT I2C_CLK 0 0402 5% R521 3 3 3 I2S_LRC I2C.DAT I2C.CLK 2 2 R20 2 1 1 I2S_LRC 0402 5% 1 2 1 6 I2S_DOUT I2S_SDIN I2S_SCLK 2 56 2 18 12 5 3 XTO XTI/MCLK CLKOUT RHPOUT LHPOUT 1 R535 3,4,7,8 3,4,7,8 CLK_24M.CODEC C531 10P/NA 0402 +/-10% 50V 3 WM8731L HVQFN28_4 C550 10P 0402 +/-10% 50V GND 2 1 ROUT LOUT 0402 1 1 2 0 C11 2200P 0402 10% 50V 2 HP_OUT_R HP_OUT_L R23 GND JO505 SPARKGAP_6 C926 10P 0402 +/-10% 50V I2C ADDRESS: 0011011 CONNECT CGND TO AGND VIA FERRITE BEAD AT THE JACK GND 17 16 1 26 27 28 25 R42 2 2 R9 1K 0402 5% 2 HP_OUT_L_AC 1 2 CSB SDIN SCLK MODE I2S_SCLK_IN 0402 1 33 5% 1 R43 33 R11 1K 0402 5% 1 2 0402 2 VMID 8 10 7 11 9 2 HP_OUT_R_AC MICBIAS MICIN 20 220U 4V 3528 R17 100K 0402 5% 1 2 0402 2 1 1 2 Cradle_R_OUT 1 21 22 0402 1U 6.3V +/-10% 1K/100M C526 4700P 0402 10% 50V 2 0 0402 5% R22 C8 1K/100M L505 C512 4700P 0402 10% 50V 23 24 MIC_BIAS MIC_IN C14 MIC_IN_1 2 1 2 1 2 1 L510 C41 10P 0402 +/-10% 50V +3.3V 2 GND 2 0402 1K/100M C35 10P 0402 +/-10% 50V 120Z/100M 0402 10U 0805 6.3V 10% C 1 HP_OUT_R_1 1 U505 + 0/NA 0402 5% R584 C 2 0402 1K/100M 7 REMOTE_JACK_1 5% 0402 10K R519 GND HP_OUT_L_1 1 Cradle_L_OUT only for Phoenix 0402 C533 1U 6.3V +/-10% 1 2 FM_AUDIO_AC_L L506 HP_OUT_R_1 1 2 7 1 Cradle_R_OUT HP_OUT_L_1 2 5% L509 5% 0402 0/NA R580 C538 0.1U 0402 10V 10% L515 C5461 GND 1 1 5% 0402 10K R520 2 HP_OUT_R_1 DCVDD 37 36 35 34 38 19 15 4 29 30 31 32 33 2 R517 0402 10K + 5 1 2 3 4 6 GND 0402 C534 1U 6.3V +/-10% 1 2 FM_AUDIO_AC_R 2 FM_OUT_L FM_OUT_L 1 place R580 under the trace of GND "Cradle_R_OUT"; Don't out of the trace J501 AVDD C540 0.1U 0402 10V 10% 2 2 2 8 R518 0402 5% 10K 1 C520 10P/NA 0402 50V +/-10% 10U 0805 6.3V 10% 1 JGND is the Antenna using HeadPhone Cable C541 0.1U 0402 10V 10% GND C547 1 FM_OUT_R FM_OUT_R 2 2 8 2 1 R508 1M/NA 0402 5% PJ_In_T 1 JGND 120Z/100M/NA 1 2 2 1UH 0805 L5 DBVDD GND Unuse if need to pull high or low?! 1 1 1 HP_ANT +1.8V 0402 GND TP521 L501 8 GND +3.3V SPARKGAP_6 TP520 GND 2 0402 HPVDD C544 0.1U 0402 10V 10% 2 2 10U 0805 6.3V 10% 1 R539 63.4K 0402 1% JO504 C554 2 L11 120Z/100M 1 Close to PhoneJack (J501) 1 2 0402 1 AME8834AEIVADJ SC70_5 120Z/100M 1 R540 30K 0402 1% 4 ADJ 2 AUDIO_LDO_OUT 1 5 VOUT 2 C556 1U 0603 L7 1 1 2 R546 D 1 2 3 2 100K 0402 1 U507 AUDIO_LDO_IN 2 1 2 0402 120Z/100M 1 2 L517 1 GND GND MICROPHONE Check MIC_BIAS MMST3904 2 B 0402 5% C924 4700P 0402 10% 25V C925 4700P 0402 10% 25V 3 REMOTE_JACK +3.3V Input Full Scale input to ADC: V(INMIC)=1*AVDD/3.3=1.8/3.3=0.55V (max) 1 2 1 2 GND G Check FPC Pin assignment Diff.with Arizona VCC_MEM AO7401 SOT_SC70_FET 1 default high 3 +3.3V +3.3V 0402 BM3_KSI12 BM3_KSI0 BM3_KSI1 BM3_KSI2 BM3_KSI9 BM3_KSI9 Co-layout 2 4/8 D512 EMI two Cap.s removed for placement R601 7 6 5 4 GND C553 C33 C572 10P/NA 10P/NA 10P/NA 0402 0402 0402 +/-10% C27 +/-10% C26 +/-10% 50V 10P/NA 50V 10P/NA 50V 0402 0402 +/-10% +/-10% 50V 50V 4 3 FM_OUT_R 1 FM_OUT_L Title 5 R510 1K 0402 5% 2 3 A C551 10P/NA 0402 +/-10% 50V 4/8 Check Size to smaller 2 0.5MM/HDR/MA-6 BM3_KSI1 BM3_KSI2 BM3_KSI3 BM3_KSI0 BM3_KSI5 BM3_KSI4 1 0.5MM/HDR/MA-6 Recording Volume up Volume down Like Music DATA CLK xxxxx xxxxx View xxxxx ACK xxxxx HOLD 2 3 KSI0 KSI1 KSI2 KSI3 KSI4 KSI5 KSI6 KSI7 KSI8 KSI9 KSI10 KSI11 KSI12 2 BM3_KSI1 BM3_KSI2 BM3_KSI3 BM3_KSI0 1 MOLEX 54548-0611 1 GPIO 2 BM3_KSI12 1 2 3 4 5 6 1 MOLEX 54548-0611 2 1 2 3 4 5 6 1 2.2K 0402 1% 2 HOLD BZZ_CRL# J505 2 J506 1 1 3 2 3 0402 5% Q501 PMST3904 SOT_SC70N_1 RST-1202 4V/0.3A SW1 1 A 2 A 2 BZZ_PWM 1 3 21 1 2 120Z/100M L516 0402 4/14 BZZ_PWM 1 GND1 2 K 3,7 C548 0.1U 0402 16V +80-20% D504 1 LED_PWR 2 120Z/100M/NA 4,5 12 11 10 9 8 7 6 5 4 3 2 1 BM3_KSI5 BM3_KSI4 BM3_KSI10 CLK DATA ACK LED Current limit 3 SP501 C549 0.1U 0402 16V +80-20% L4 120Z/100M 0402 TP_PWR# 1 For Soft-star BM3_KSI8 BM3_KSI3 BM3_KSI10 BM3_KSI11 B J3 1 R56 1K 0402 5% L514 Buzzer GND 2 BM3_KSI12 BM3_KSI0 BM3_KSI1 BM3_KSI2 TOUCHPAD_12_SMD JO506Solder point SPARKGAP_6 C927 10P 0402 +/-10% 50V D 1 3 3 3,7 3 C18 0.1U 0402 +80-20% 16V 2 BM3_KSI8 BM3_KSI3 BM3_KSI10 BM3_KSI11 1 2 3 3 3 3 2 BM3_KSI4 BM3_KSI5 BM3_KSI6 BM3_KSI7 BM3_KSI4 BM3_KSI5 Power_Out_C ANT_SW1# Q6 S 1 5 6 7 8 5 6 7 8 +3.3V R46 100K 0402 5% 2 3 3 3,7 3 0/NA 0402 2 1 D S 5 6 7 8 R59 R528 100K 0402 5% 1 RP503 100K*4 0804 2 RP1 100K*4 0804 0 B R585 330 MIC_IN_1 2 680 0402 5% 1 RP504 100K*4 0804 2 0402 1 0402 GND Pin E place on the trace ; No Branch 3 1 2 TP502 R503 Q505 SOT_SC70_1 Critical components R562 1 C506 47P 0402 +/-10% 50V +3.3V 1 2 3 4 3,4 C509 10U 0805 10V +80-20% 1 PJ_In 2 L911 1K/100M 0402 2 2 2 R592 330 1 1 1 1 HP_OUT_L_AC R561 1K/NA 0402 5% 1 1 Q805A BC847BPN/NA 2 1 0402 2 2 L503 1K/100M 0402 TP501 MIC_P_IN 2 1 1 1 120Z/100M 1 1 2 3 4 5 2 REMOTE_JACK_1 2 1 2 3 4 2 E 1 SOD523 C 1 1 Q503 SOT_SC70_1 PJ_In_T L507 MIC_BIAS 2 0402 5% Replace 1 K MMST3904 2 A 2 MUTE 6 2 1 3 R595 100K 0402 5% 2 B L910 1K/100M 0402 1 3 1 2 4 D510 C Q805B BC847BPN/NA L908 1K/100M 0402 E R591 330 2 HP_OUT_R_AC +3.3V 2 Rev Document AUDIO / KEY MATRIX Number 星期四, 八月 04, 2005 R00 Sheet 1 6 of 8 5 4 3 2 Cradle POWER SWITCH 1 2 +3.3V 1 OC_CRL_PWR# 2 C2 0.1U 0402 16V +80-20% D 8 Ext_ANT Ext_ANT 0402 5% 2 2 1 3 R1 10K 0402 5% 1 R21 330 2 AT3_HDMACK# C +3.3V_HDD +3.3V_HDD C537 0.1U 0402 16V +80-20% AT3_HIRQ.0 R526 1 10K 2 5% 0402 AT3_HIOW# AT3_HIOR# AT3_HA0 AT3_HA1 AT3_HA2 AT3_HCS1# AT3_HCS0# AT3_HD15 AT3_HD7 AT3_HD14 AT3_HD6 AT3_HD13 AT3_HD5 AT3_HD12 AT3_HD4 AT3_HD11 AT3_HD3 AT3_HCS0# AT3_HCS1# AT3_HDMARQ AT3_HIOW# AT3_HIOR# AT3_HIORDY AT3_HDMACK# AT3_HIRQ.0 3 3 4.7K +3.3V 3 0402 R78 100K 0402 5% 1 2 1 Cradle_Power_Out Cradle_in# +3.3V Cradle plug_in-->L Cradle plug_out-->H U13 5 2 I2C_SCL_SW I2C_SDA_SW 3 I2C_C_EN 8 11 10 7 0B1 0B0 1B1 1B0 A1 A0 R602 100K 0402 5% 2 0402 Cradle_R_OUT Cradle_L_OUT Cradle_R_OUT Cradle_L_OUT 10K 1 Ext_ANT Wake_Up# I2C_CLK I2C_DAT USB_ID Power_Request# I2C_SCL_SW I2C_SDA_SW V_Cradle Wake_Up# GPIO1 GPIO2 Cradle_in# Cradle_R_OUT Cradle_L_OUT 1 TDFN12 I2C_SW Logic 0 Logic 1 I2C connect Function Floating Cradle to System 1 1 2 0402 10% 1 2 0402 10% C83 10P C82 10P 1 2 0402 10% 1 2 0402 10% 50V 50V 50V 50V C 50V 50V 50V 1 6 I2C_SCL_SW 2 5 I2C_SDA_SW 3 4 1 6 GPIO2 2 5 Cradle_in# 3 4 B U10 L518 1 6 2 5 3 4 Cradle_R_OUT Cradle_L_OUT CM1218-05SC/NA SC70_6_EIAJ DN For ESD Negative power Cut K K D508 ESD0603A/NA DC0603 V_Cradle A R571 0 2 0402 A 1 U5 C44 0.1U 0402 +80-20% 16V 3 4 MN VCC 2 1 G692L293T SOT143 RESET# 3,4 VBUS For EMI GND R58 100K 0402 5% A GND 2 2 5% RESET# 2 MN 1 0402 2 1 2 0402 10% DP D509 ESD0603A/NA DC0603 1 4 GND R47 1M 0402 1% 1 50V 2 R52 10K 0402 1% 1 5 C50 10U 0805 10V +80-20% 2 2 1 2 1 2 0402 10% 50V CM1218-05SC/NA SC70_6_EIAJ 1 2 A JO11 SPARKGAP_6 JO10 SPARKGAP_6 1 2 Key buttons to reset 1 2 3 BM3_KSI1 1 Power_Request# 3 2 +3.3V 3,6 2 0402 10% CM1218-05SC/NA SC70_6_EIAJ CHOKE_ACM2012 90Z/100M/NA +3.3V Volume up 1 50V R570 0 2 0402 2 5% 3 R49 2 0402 10% 4 1 3 U4 VCC 1 50V 10K 0402 1 2 0402 10% 50V U12 High Bandwidth: 250 MHz Fast Transition Speed: 5.2ns max. at 5V Low On-Resistance: 8. at 3.0V GPIO1 BM3_KSI9 1 USB_ID 3 6 CoLayout 5% R524 3,6 2 0402 10% U11 2 0402 Power_on/off 2 0402 10% 1 3,4,6,8 3,4,6,8 Wake_Up# D1 2 0402 10% 1 10K 1 AT3_HDMARQ 1 5% R527 AT3_HIRQ.0 B C564 10P C93 10P C94 10P C88 10P C87 10P C568 10P C86 10P C85 10P C84 10P C89 10P 9 12 4 1 VBUS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Remove 11 Res. 5% R537 I2C_SDA_SW Wake_Up# GPIO1 GPIO2 6 6 AT3_HIORDY AT3_HIRQ.1 2 GPIO4 3 3 3 C575 0.1U 0402 16V +80-20% Cradle_in# FPC/0.5MM/45P MOLEX 51296-4541 1 1 1K/NA 0402 5% 2 V_Cradle 2 2 DP DN VBUS USB_ID Power_Request# I2C_SCL_SW GND 3,4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Cradle_in# VBUS USBID-DEV/HOST# Power_Request# +3.3V_HDD R77 100K 0402 5% R86 AT3_HRESET# R525 R87 100K 0402 5% 1 J507 R85 100K 0402 5% 1 AT3_HRESET# 2Cradle_Power_Out +3.3V 2 AT3_HD0 AT3_HD1 AT3_HD2 AT3_HD3 AT3_HD4 AT3_HD5 AT3_HD6 AT3_HD7 AT3_HD8 AT3_HD9 AT3_HD10 AT3_HD11 AT3_HD12 AT3_HD13 AT3_HD14 AT3_HD15 1 1 Cradle_Power_Out_R R84 100K 0402 5% 2 3 R589 1 AT3_HIORDY AT3_HIRQ.0 AT3_HCS0# AT3_HCS1# AT3_HIRQ.1 3 3 3 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 2 3 IN 4/8 OC#_R 3 2 1 J504 AT3_HD10 AT3_HD9 AT3_HD2 AT3_HD8 AT3_HD1 AT3_HD0 AT3_HA0 AT3_HDMACK# AT3_HA1 AT3_HDMARQ AT3_HA2 AT3_HIORDY AT3_HA0 AT3_HA1 AT3_HA2 1 3 3 3 1 1 C552 0.1U 0402 16V +80-20% 2 AT3_HDMARQ AT3_HIOW# AT3_HIOR# 3 3 2 3 ON 5 1" HDD FPC Connector 2 AT3_HRESET# 4 Power_Out_C 1 3 3,6 1 AT3_HD[0:15] D JO9 SPARKGAP_6 U513 +3.3V 3 Title Phoenix DVT R0D RC Delay Time: I=C*dV/dt =>t=C*V/I (dV is both sides voltage of Res. ; dt is the time of charge Cap.) 5 4 GND 3 2 Rev Document BATTERY / HDD Number R00 星期四, 八月 04, 2005 Sheet 1 7 of 8 5 4 3 2 1 美磊 MSCDRI-2D18-4R7MG (H=1.8mm) Ip=400mA+Vin*100ns/L =402.27mA L513 LED1_SW 2 A VCC_2.8V R569 100K 0402 5% 5.6K 0402 1% R597 R596 1 BKLT_PWM BKLT_PWM_RC 2 1 3 1 1 3 3 3 3 3 0/NA 0402 5% 2 1 10K A K R13 R14 0 0 1 1 LED1 2 0402 2 0402 9360-304-XXXX PHILIPS FPC/FFC-1MM-2P/NA S/W request to Control enable LCD output Using on PA020 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 2 0402 5% LCD_CS# 2 R534 18.2 0402 1% 63.4K 0402 1% C573 2 6.81K 0402 0.1U 1% 0402 16V +80-20% R10 R12 2 1 1 If CTRL is pulled to GND ,it will disconnect LEDs from GND J1 25V LED2 1 C528 10U 1206 16V 15mils Swap return 8 7 1 2 TPS61043 HVQFN8_065MM 1 C535 0.1U 0402 10V 10% 2 1 1 2 R544 10K 0402 5% C555 0.1U 0402 16V +80-20% 2 High->On Low ->Off 2 R19 33K 0402 1% 1 2 0402 1 BKL_ON 2 Vout = 0.59 x [ 1+ (R1 / R2) ] 2 3 C15 1U 0402 +/-10% 6.3V 3 5 6 9 4 2 R18 43.2K 0402 1% 1 VCC_2.8V_FB U506 0 C542 4.7U 1206 10% BK_RS 3 1 R581 0 R545 2 2 4 ADJ AME8834AEIVADJ SC70_5 1 5% 0402 1 VCC_2.8V_JS 5 VOUT 2 C530 0.1U 0402 10V 10% 1 1 2 3 JS1 2 1 2 C532 1U 0402 +/-10% 6.3V 2 D 1 U504 C545 0.01U 0402 25V 10% LED2 1 2 C570 0.1U 0402 16V J2 1 +3.3V 2 4.7UH MSCDRI-2D18C 30% VCC_2.8V K 1 LDO LED1 D505 1 2 5 1 1.5" CSTN PANEL +80-20% D 1 1 R502 18K 0402 4 1 ADJ 2 2 1 VOUT L2 2 AME8834AEIVADJ SC70_5 0.1U 2 2 2 47P 0402 2 2 L502 120nH 0603 2% C504 Change from 0402 to 0603 2 2 0402 50V 5% 2 100K 1 C13 1U 0603 1 0402 1 27P 1 FM_ANT_C C505 2 10%10V 1 220P 10% 50V 4700P 0402 FM_ANT C503 1 HP_ANT 1 6 R3 C501 5 120Z/100M 1 0402 50V C502 10% C 1 2 3 L1 R7 29.4K 0402 1% C6 0.1U 0402 10V 10% 1 U1 9360-304-XXXX PHILIPS +3.3V TP17 2 120Z/100M/NA 1 2 0402 C10 10U 0805 10V +80-20% C 0402 1% ANTENNA SWITCH 1 R504 10K 0402 1% 11 12 13 14 15 16 17 18 19 20 C508 2 0402 C513 2 0402 C515 2 0402 1 0.047U 16V 10% 1 0.047U 16V 10% 1 1000P 50V 10% C511 2 0402 C514 2 0402 C516 2 0402 1 0.047U 16V 10% 1 0.033U 16V 10% 1 0.033U 16V 10% FM_OUT_L FM_OUT_R 6 FM_OUT_R 6 1 1 C805 1 FM_ANT_C 2 1 220P 0402 50V 10% L12 2700/100M 0805C 2.33V/680ohm = 3.426mA R509 1 2 R68 680 0402 5% 2 2 5% 0402 0 1 1 2 2 1.13K 1% 0402 0402 C525 0402 0.022U 16V 10% C524 0402 0.022U 16V 10% C519 0402 2200P 50V 10% C29 1000P 0402 50V +80-20% 0402 C527 1 2 0.1U 16V +80-20% 6via R80 C5 220P 0402 50V 10% 5% 0 1 FM Switch 6via 6via 6via XTAL_32K_V 2 2 4 1 3 2 10K 1% A 1 Cradle_in_SW# B D6 A Place on particular Position R516 1 2 1 1% 1 1 R514 C4 220P 0402 50V 10% 2 2 0402 10K 2 TP16 I2C_CLK Cradle_in_SW# C574 1000P 0402 L802 50V 2700/100M +80-20% 0805C RF_GND 2 R513 1 1 1 1 0402 1% 2 10K 2 I2C_CLK 1 3,4,6,7 1 220P 0402 50V 10% R515 1 I2C_DAT Ext_ANT_1 Ext_ANT 1 3,4,6,7 7 2 2 TP4 I2C_DAT 2 10K 0402 1% C803 C571 0.1U 0402 10V 10% R25 1 R804 47 0402 5% TEA5767HN HVQFN40 R533 22 0402 1% R24 47K 0402 5% 2 1 N.C._5 LIMDEC2 LIMDEC1 TIFC VREF MPXO TMUTE VAFL VAFR N.C._4 1 30 29 28 27 26 25 24 23 22 21 2 2 GND N.C._7 LOOPSW TAGC RFI2 RFGND RFI1 VCCA AGND IGAIN N.C._6 N.C._0 CPOUT VCOTANK1 VCOTANK2 VC(VCO) DGND VCCD DATA CLOCK N.C._2 2 1 2 2 1 2 1 C517 0.022U 0402 16V 10% SW2 3 2 D503 BB202 K L511 33nH 0603 2% 0402 16V 10% SOD523 B 0.033U 2 1 1 1 1 2 3 4 5 6 7 8 9 10 A C507 C510 0.033U 0402 10% 16V A 2 D501 BB202 U502 2 1 K 1 2 L508 33nH 0603 2% SOD523 R507 22 0402 1% 41 40 39 38 37 36 35 34 33 32 31 WRITE/READ BUSMODE BUSENABLE SWPORT1 SWPORT2 XTAL1 XTAL2 PHASEFIL PILFIL N.C._3 R501 100K 0402 1% 1 2 Change from 0402 to 0603 2 1 A 0402 R511 1 2 2 0402 C16 6via 1 2 0.1U 16V +80-20% 6via 6via 6via (type:VRD016_008) Title 5 4 3 Phoenix DVT R0D 2 Document FM TUNER / LCM Number Date: 星期四, 八月 04, 2005 Rev R00 Sheet 1 8 of 8 9.0 REVISION LIST Version 1.0 (3141 785 30700) • Initial release HDD1420/HDD1620/HDD1630/DD1635 Version 1.1 (3141 785 30701) Chapter 5 – Service part list revised service 12NC as listed below • Added the new part cradle assy for HDD1635/17 (994000003791) Version 1.2 (3141 785 30702) Chapter 5 – Service part list, revised service 12NC as listed below • Added the new part pouch 994000003876 and CD disc 994000003877 for Europe and 994000003878 for US Version 1.3 (3141 785 30703) Chapter 5 – Service part list update • Added the new part Control Case PAC001 12NC 994000005704 for HDD1835/17 Version 1.4 (3141 785 30704) Chapter 2 – Safety instructions • Added the battery storage and handling guideline Version 1.5 (3141 785 30705) Chapter 4 – Mechanical Instruction • Modify the disassembly procedure by adding a tap over the knobs before opening the set Chapter 5 – Service part list update • Added the 12NC of RESET LABEL 996500039192
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