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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 :
Backlight :
Battery :
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
White
630 mAh Li-Ion rechargeable battery
Battery life time:
File transfer rate using
USB2.0 :
Battery charging current
>16hrs
>4Mbyte
450mA
4hr Maximum charging time :
Battery cutoff voltage:
Connections:
3.7V
Headphone Line Out Jack
Power Connector
Battery level detection
Detection Level
4-step to 3-step voltage
3-step to 2-step voltage
2-step to 1-step voltage
Typ.
3.6 – 3.7V
3.53 – 3.6V
3.48 – 3.53V
Force Power Off voltage <3.5V
Current consumption
DC-IN SUPPLY (4.5V)
Battery Charging Current 450mA
BATT. SUPPLY (3.7V)
Power Off
Idle
300uA
30mA
Playback without HDD reading
Playback with HDD reading
File transfer using USB2.0
30mA
345mA
350mA
Headphone out (headphone output load 2x16 ohm)
Maximum output power : 10 mW
Frequency response : 45Hz – 16kHz (16
Ω load)
20Hz – 16kHz (15k
Ω load)
SNR (A-wght) : 85dB
THD (1kHz) :
Balance :
Left-Right Channel
Separation :
Left-Right Channel
0.1%
45dB typ. (1k Hz)
40dB typ. (20Hz – 16kHz)
<1.0dB (1k Hz)
<2.0dB (20Hz – 16kHz)
Supported playback format
MP3 :
WMA :
Sample rates :
8 - 320 Kbps and VBR
32 - 192 Kbps
8, 11.025, 16, 22.050
32, 44.1, 48
Yes
ID3-tag support :
PC Connectivity : USB
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
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.
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
6. 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 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 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
7. The application will show the status of updating and at the end you need to click OK to complete the update.
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.
(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
1.0 TECHNICAL SPECIFICATION and SERVICE HINTS
5. 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.
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.
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.
6. Once the repair is complete a dialogue box will pop up; click OK and unplug the GoGear from the computer.
4. The device will be listed as a new drive named
GOGEAR or MDJUKEBOX in Windows Explorer.
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.
5. Launch Windows Explorer and then quick format the new drive to the file system FAT32.
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 icon on the task tray.
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 WARNING
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.
ESD
NL
WAARSCHUWING
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.
F
ATTENTION
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
WARNUNG
Alle ICs und viele andere Halbleiter sind empfindlich gegenüber elektrostatischen
Entladungen (ESD).
Unsorgfältige Behandlung im Reparaturfall kan die Lebensdauer drastisch reduzieren.
Veranlassen Sie, dass Sie im Reparaturfall über ein Pulsarmband mit Widerstand verbunden sind mit dem gleichen Potential wie die Masse des Gerätes.
Bauteile und Hilfsmittel auch auf dieses gleiche
Potential halten.
I
AVVERTIMENTO
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.
D
Bei jeder Reparatur sind die geltenden Sicherheitsvorschriften zu beachten. Der Original zustand des Geräts darf nicht verändert werden; für Reparaturen sind Original-Ersatzteile zu verwenden.
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.
"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."
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 !
Avatussa laitteessa ja suojalukituksen ohitettaessa olet alttiina näkymättömälle laserisäteilylle. Älä katso säteeseen!
DK
Advarse !
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.
5.0 EXPLODED VIEW AND SERVICE PARTS LIST
101
102
103 107
106
113
114
112
108 111
104
100
105
109
116
110
118
MECHANICAL PARTS
101 994000003555 BACK CABINET PHOENIX
102 994000003559 AUDIO JACK HOLDER ASSY
104 994000003572 CRADLE HOLDER PHOENIX
105 994000003558 SCREW 1.7X5 PHOENIX
106 994000003557 BATTERY PACK PHOENIX
282206200079 HDD 6GB (HDD1620/00/05,
HDD1630/17 & HDD1635/17)
108 994000003563 HDD DAMPER PHOENIX
109 994000003564 HDD HOLDER PHOENIX
110 994000003568 HD FPC PHOENIX
117
115
994000003571
(HDD1630/17 & HDD1635/17)
PCBA W/O RADIO LCE PHOENIX
(HDD1420/00 & HDD1620/00/05)
116 994000003574 HOLD KEY PHOENIX
118 994000003576 HOUSING TOUCHPAD PHOENIX
MISCELLENEOUS
994000003578
994000003579
AC ADAPTOR AD7153/17 (FOR /17)
AC ADAPTOR AD715B/05 (FOR /05)
994000003791 CRADLE ASSY PHOENIX (FOR
HDD1635/17 ONLY)
994000003877 CD-PHX-EU (FOR /00 & /05)
994000003876 POUCH FOR PHOENIX
HDD1835/17 ONLY)
996500039152 PHOENIX RESET LABEL
5.0 EXPLODED VIEW AND SERVICE PARTS LIST
102 105
115
116
112
113
106
118
118
117
114
100
101
MECHANICAL PARTS
101 994000003555 BACK CABINET PHOENIX
102 994000003559 AUDIO JACK HOLDER ASSY
104 994000003572 CRADLE HOLDER PHOENIX
105 994000003558 SCREW 1.7X5 PHOENIX
106 994000003557 BATTERY PACK PHOENIX
282206200079 HDD 6GB (HDD1620/00/05,
HDD1630/17 & HDD1635/17)
108 994000003563 HDD DAMPER PHOENIX
109 994000003564 HDD HOLDER PHOENIX
110 994000003568 HD FPC PHOENIX
104
103
107
994000003571
(HDD1630/17 & HDD1635/17)
PCBA W/O RADIO LCE PHOENIX
(HDD1420/00 & HDD1620/00/05)
116 994000003574 HOLD KEY PHOENIX
118 994000003576 HOUSING TOUCHPAD PHOENIX
MISCELLENEOUS
994000003578
994000003579
AC ADAPTOR AD7153/17 (FOR /17)
AC ADAPTOR AD715B/05 (FOR /05)
994000003791 CRADLE ASSY PHOENIX
(HDD1635/17)
994000003877 CD-PHX-EU (FOR /00 & /05)
994000003876 POUCH FOR PHOENIX
HDD1835/17 ONLY)
996500039152 PHOENIX RESET LABEL
6.0 TROUBLESHOOTING FLOW
SYMPTOM 1: NO POWER
6.0 TROUBLESHOOTING FLOW
SYMPTOM 2: JUKEBOX FREEZES / HANGS UP
Open up the unit, unplug battery connector and reconnect again
6.0 TROUBLESHOOTING FLOW
SYMPTOM 3: ERROR MESSAGE SCROLLS ON THE DISPLAY
6.0 TROUBLESHOOTING FLOW
SYMPTOM 4: NO SOUND
7.0 BLOCK DIAGRAM
+1.2V
5
Place Close Each Power Pin
+1.2V
4
1 2
+3.3V
VCC_MEM
+3.3V
D
OC_USB.PWR#
C
B
Ckose to U510(PP5022)
ENA_USB.PWR
HOLD
LCM_SE (1.9"LCD)
4
4
BM3_KSI9
4
PWR_ON_OFF#
View
4
4
4
4
4
DBG3_TCK
DBG3_TDI
DBG3_TDO
DBG3_TMS
DBG3_TRST
Line_in_SW
XM2_MD[0..15]
XM2_MA[1..15]
CLK_SYS.OUT
4/8 IR function remove
7
8
8 LCD_ON
Cradle_in#
LCD_RST#
1
XM2_MA[1..15]
4
8
4
4
4
1
XM2_SDR_CS1#
4
4
4
6
ACK---
XM2_MD[0..15]
TouchPad Power Enable
6
6,7
6
1
4
6
6
BM3_KSI12
BM3_KSI11
REMOTE_INT
5
XM2_MA16/RAS0#
XM2_MA26
XM2_MA25
BZZ_PWM
5 PSEL1
BKL_ON
XM2_MA20_1
XM2_MA19
XM2_MA18/WE#
XM2_MA17/CAS0#
2
4
4
4
4
4
4
XM2_ROM.RD#
XM2_ROM.WR#
XM2_ROM.RDY
XM2_DQML#
XM2_DQMH#
XM2_ROM.CS1#
8
4
4
XM2_SDR_CS0#
XM2_CKE
Cradle_in_SW#
4,7
BM3_KSI10
BM3_KSI9
BM3_KSI8
4/8 Pin Swap
Change for
PP5022 difference with PP5020
6
2
RTC_WAKE#
6
RESET#
MUTE
TP_PWR#
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
XM2_MA26
XM2_MA25
BZZ_PWM
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
CLK_SYS.OUTR
DTV_27MHz
DTV_PD[0:7]
1 OC_USB.PWR#
1
Cradle_In_S
1
VCC_AC
LEA
VBUS_Detect
ADC_EN#
PJ_In
XM2_ROM.RDY
XM2_MIO.RDY
MBID0
MBID1
MBID2
RESET#
+3.3V
1
1
T17
R16
P15
P14
M15
N16
P17
M16
N15
P16
N14
R17
BM3_KSO.07
BM3_KSO.06
BM3_KSO.05
DTV3_XCLK
DTV3_PD.7
DTV3_PD.6
DTV3_PD.5
DTV3_PD.4
DTV3_PD.3
DTV3_PD.2
DTV3_PD.1
DTV3_PD.0
R14
U13
T13
R13
U12
T12
R12
P12
R10
T11
U10
P10
T10
U11
R11
F16
H17
G17
F15
J17
D14
B3
A1
C3
C5
A4
B6
C4
B4
D2
C1
C2
B1
B2
A3
B5
A2
C7
A9
B9
B10
E3
F1
A6
C6
D3
D1
E2
E1
F2
F3
C10
A10
C11
D11
A11
C12
B11
A12
C13
D13
A13
B12
D7
C8
C9
B14
A14
B7
A5
C14
B13
A8
B8
A7
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
G1
G3
E4
G2
UA3_TXD
UA3_RXD
UA3_CTS
UA3_RTS
G4
H1
IR3_RXD
IR3_TXD
C16
C15
RESERVED
RESET#
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
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
DBG3_TCK
DBG3_TDI
DBG3_TDO
DBG3_TMS
DBG3_TRST#
CNF3_TST
LCD3_AA0
LCD3_CS3#/DLE
LCD3_CS2#/CLE
LCD3_CS1#/ALE
LCD3_RST#
LCD3_RD#
LCD3_R/W#
Pin
LCD3_DB7
LCD3_DB6
LCD3_DB5
LCD3_DB4
LCD3_DB3
LCD3_DB2
LCD3_DB1
LCD3_DB0
Pin
R10=>TP503 (OC_USB.PWR#)
U10=>TP508 (ENA_USB.PWR)
U11=>BM3_KSI12 (HOLD)
R11=>BM3_KSI11 (LCM_SE<1.9">)
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
A
VCC_MEM
1 2 XM2_MIO.RDY
MBID0
MBID1
MBID2
1 2 XM2_ROM.RDY
MBID0
MBID1
6/24 with FM w/o FM
0
0
0
0
MBID2 0 1
5 4
3 2
+1.2V
1
+1.2V_AVDD
+3.3V
+1.2V_USB_VDDP
10U
0805
1 2
1
1
2
I2S_SDIN
2
XTAL_33M.IN
ACPG#1
ACPG#1 5
Check
+1.2V
+3.3V
USB_VDDA 1 2
VCC_AC 2 1
AC_PWR 5
M17
L16
N17
J16
K17
J15
J14
L17
K16
K15
L14
L15
U9
R9
U8
T9
P8
R8
T8
U7
T6
T7
R7
R5
U6
R6
U5
LCD_CS#
ACPG#1
LCD_R/W#
LCD_RD#
LCD_CS# 8
8
8
R567
2M
I2C_DAT_IN
1 2
I2C_DAT 4,6,7,8
Pin
M17=>LCD_R/W#
L16=>LCD_RD#
N17=>LCD_CS#
J16=>ACPG#1
FW3_D[7:0]=>LCD_D[7:0]
FW3_CTL1
FW3_CTL0
FW3_LREQ
FW3_SCLK
FW3_D7
FW3_D6
FW3_D5
FW3_D4
FW3_D3
FW3_D2
FW3_D1
FW3_D0
BM3_KSO.04
BM3_KSO.03
BM3_KSO.02
BM3_KSO.01
BM3_KSO.00
BM3_KSI.07
BM3_KSI.06
BM3_KSI.05
BM3_KSI.04
BM3_KSI.03
BM3_KSI.02
BM3_KSI.01
BM3_KSI.00
RM3_SCL
RM3_SDA
I2S_SCLK
I2S_DOUT
I2S_DIN
I2S_LRC
I2S_RST
CLK_DEV.OUT
SPDIF_IN
SPDIF_OUT
USB_RREF
USB_DP
USB_DM
USB_VBUS
CLK_SUS.OUT
XTAL_32K.OUT
XTAL_32K.IN
XTAL_24M.OUT
XTAL_24M.IN
XTAL_33M.OUT
XTAL_33M.IN
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
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#
AT3_S.HDMACK#
AT3_H.DMARQ
AT3_S.HIOR#
AT3_S.HIOW#
pin R15=>LCD_RS
OT3_Y.UD
OT3_Y.CK
OT3_X.UD
OT3_X.CK
ADC_AIN.0
ADC_AIN.1
PM3_PWM0
PM3_PWM1
CD3_BCLK
CD3_C2PO
CD3_DATA
CD3_LRCK
U4
T4
U3
T5
P5
P6
H2
F4
C17
E17
D17
F17
M2
N3
P4
N4
M1
L2
M3
L1
M4
K2
P2
R1
P1
N2
P3
N1
D12
F14
E15
G15
G16
H15
H16
LCD_D7
LCD_D6
LCD_D5
LCD_D4
LCD_D3
LCD_D2
LCD_D1
LCD_D0
BZZ_CRL#_R
BM3_KSI7
BM3_KSI6
BM3_KSI5
BM3_KSI4
BM3_KSI3
BM3_KSI2
BM3_KSI1
BM3_KSI0
I2C_CLK_IN
I2C_DAT_IN
1
1
1
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
LCD_D7
LCD_D6
LCD_D5
LCD_D4
LCD_D3
LCD_D2
LCD_D1
LCD_D0
1
I2C_C_EN
2
USB_RBIAS
USBS_DP
USBS_DN
VBUS_SENSE
7
1
I2S_SCLK
I2S_DOUT
I2S_SDIN
I2S_LRC
XTAL_32K.IN
XTAL_24M.OUT
XTAL_24M.IN
XTAL_33M.IN
8
8
8
8
8
8
8
8
Power_Request#
Wake_up#
GPIO1
GPIO2
7
7
7
ANT_SW1#
Power_Out_C
BM3_KSI5
BM3_KSI4
BM3_KSI3
BM3_KSI2
BM3_KSI1
BM3_KSI0
6
6
6
6
6
6,7
6
6,7
6
6
6
6
4
4
4
7
Value change
CLK_24M.CODEC_R
Check=>Reserved
AT3_HD[0:15] 7
Remove damp Res.
LEA
PJ_In
BZZ_CRL#_R
Battery_ID:Low=>Plug-In
1
For EMI & close PP5022
XTAL_32K.IN
J4
J1
R2
T2
L4
L3
K1
K3
J3
R3
T1
J2
H3
U1
T3
U2
R4
U14
T14
U15
R15
S2_R
2
1
1
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#
7
7
7
7
7
7
7
7
7
7
7
7
7
USBID-DEV/HOST#
DC-DC_RUN 5
1
1
STAT2
TP11
5
AT3_PWR.OFF
U16
U17
T15
T16
VCC_BATR
REMOTE_JACK_D
GP4 2 1
BKLT_PWM
GPIO4 4,7
8
B16
A16
B15
A15
CSC
2
OC_CRL_PWR#
1
STAT1 5
Current_Set
OC_CRL_PWR#
5
1
5
7
7
A
LCD_RS
27M_OFF# unused_only pull high
DTV_RESET#
K
8
5VREG_ON
REMOTE_JACK
+3.3V
HD_ON/OFF#
4,6
2
2
2
USB wakeup&detect
2
1
1
0
R586
1
ADC_EN#
4/8
1
LEARNING
PJ_In 6
BZZ_CRL#
2
5
6
VBUS_Detect
CLK_24M.CODEC
6
6
VBUS
I2C_CLK_IN
VCC_MEM
VBUS
1 2
I2C_CLK 4,6,7,8
For EMI Close to PP5022
Place Close Each Power Pin
Place Close Each Power Pin
1
ADC_EN#_M
VCC_BATC
3
1
RC removed
Battery Shuntdown point detect
Now:3.5V
4
USB_DP
USB_DN
2
KSI12
KSI11
KSI10
KSI9
KSI8
KSI7
KSI6
KSI5
KSI4
KSI3
KSI2
KSI1
KSI0
7
7
HOLD xxxxx
ACK
PWR_ON_OFF#
View xxxxx xxxxx
CLK
DATA
Like Music
Volume down
Volume up
Recording
When Power-off reduce the power loss
VCC_BAT
D
C
B
A
+3.3V
3
REMOTE_JACK_D
2
Phoenix DVT R0D
1
3 XM2_MD[0..15]
3 XM2_MA[1..15]
5 4
D
Power Supply Voltage:1.65V~1.95V
BANK 0 FLASH MEMORY
512Kx16Bits => 1MBYTE
VCC_MEM
RAM TYPE/WIDTH (UPPER 2 BITS ARE FIRMWARE SELECT)
ADDRESS
A7 A6 A5
0 X 0
0 X 1
1 X 0
1 X 1
DESCRIPTION
SRAM 16-BIT
SRAM 32-BIT
SDRAM 16-BIT
SDRAM 32-BIT
DEFAULT
X X 0
C
3 XM2_MA20_1
VCC_MEM
2
1
BOOT VECTOR LOCATION (HARDWARE SELECT)
DESCRIPTION ADDRESS
A15 A14
0 0
0 1
1 0
1 1
EXT ROM0 (0000:0000) (DEFAULT)
EXT ROM1 (0800:0000)
BOOTROM UART
BOOTROM OTHER
3
3
3
1
XM2_MA16/RAS0#
XM2_MA17/CAS0#
XM2_MA18/WE#
3 XM2_MA19
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
C2
A2
B5
A5
C5
D5
E1
D1
C1
A1
B1
D2
B6
A6
C6
D6
E6
B2
C3
D4
2
3
3
3
XM2_BYTE#
3,7 RESET#
XM2_ROM.CS1#
XM2_ROM.RD#
XM2_ROM.WR#
1
0/NA 0402
2
F1
G1
A4
F6
B4
A8
A9
A10
A11
A12
A13
A14
A15
A0
A1
A2
A3
A4
A5
A6
A7
A16
A17
NC_3
NC_4
CE
OE
WE
BYTE
RESET
SDRAM Pin:BYTE# need to pull high to VCC_MEM
NC_0
NC_1
NC_2
C4
D3
B3
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15/A-1
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
G3
F4
G5
F5
G6
H4
E4
H5
E5
E2
H2
E3
H3
F2
G2
F3
RY/BY
A3
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
BOOT CLOCK SOURCE (HARDWARE SELECT)
DESCRIPTION ADDRESS
A17 A16
0 0
0 1
1 0
1 1
24.000MHZ (DEFAULT)
24.576MHZ
48.000MHZ
RESERVED
1 2
Flash: SST(SST39WF400A-90-4C,1.8V)=283439400001
AMIC(A29L400UG-70F,3.3V)=283480190001
XM2_ROM.RDY
BOOT OPTION
DESCRIPTION ADDRESS
A19
0
1
0 = IDE0 (DEFAULT)
1 = IDE 1
3
JTAG CONFIG (HARDWARE SELECT)
DESCRIPTION ADDRESS
A26 A25
0 0
0 1
1 0
1 1
00 = Serial (CPU->COP)(DEFAULT)
01 = CPU only (CPU)
10 = COP only (COP)
11 = Parallel (CPU||COP)
FLASH BUS WIDTH
ADDRESS
A1
0
1
DESCRIPTION
0 = 16 BIT
1 = 8 BIT
VCC_BAT
B
REMOTE_JACK
1 2 1 2 5
REMOTE Power-On CONTROL
1 2 2
+3.3V
DC-DC_START# 5,6
3
3
3,7 RESET#
XM2_CKE
VCC_MEM
2
1
2
3
OE
A
GND
VCC
Y
5
4
VCC_MEM
1
Only For PP5022 Ver.B CKE reset issue
Can be eliminate
VCC_MEM
1
4/12 For Sub items
2
+3.3V
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_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
E1
D2
D1
C2
C1
B2
B1
A2
A8
B9
B8
C9
C8
D9
D8
E9
J2
H3
H2
H1
G3
H9
G2
G1
H7
H8
J8
J7
J3
A6
A7
A8
A9
A10
A11
A12
A0
A1
A2
A3
A4
A5
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
CKE
CLK
UDQM
LDQM
WE
CAS
RAS
CS
BA1
BA0
F3
F2
F1
E8
F9
F7
F8
G9
G8
G7
NC0
E2
XM2_CKE_RESET#
CLK_SYS.OUT
XM2_DQMH#
XM2_DQML#
XM2_MA18/WE#
XM2_MA17/CAS0#
XM2_MA16/RAS0#
XM2_SDR_CS0#
3
3
3
3
3
3
3
XM2_MA15
XM2_MA14
3
3
Replace for Ver.C
VCC_MEM
Power Supply Voltage:1.65V~1.95V
16Mx16(256Mbit): Infineon=283780190001
Sumsung=283780190002
4/12 Change R & C value for PP5022
XTAL_24M.IN
3
3
3
3
XM2_MA5
XM2_MA14
3 XM2_MA15
XM2_MA16/RAS0#
3
3
3
XM2_MA19
XM2_MA25
XM2_MA26
XM2_MA1
Let "XM2_MA17/CAS0#" open from FAE note
These net length must be equivalent
+3.3V
XM2_MA17/CAS0#
1 2
+1.8V
Place Close Each Power Pin
1
2
3
4
1
2
3
4
1 2
1 2
5
6
7
8
5
6
7
8
XTAL_24M.OUT
3
1 3
2
4
R66
1K
3
3
3
3
3
DBG3_TRST
DBG3_TDI
DBG3_TMS
DBG3_TCK
DBG3_TDO
DBG3_TRST
DBG3_TDI
DBG3_TMS
DBG3_TCK
DBG3_TDO
+3.3V
1
2
3
4
5
6
7
8
7
8
5
6
3
4
1
2
GND2
GND1
GND2
GND1
D
C
B
+3.3V
XTAL_32K_V 8
RF_GND
+3.3V
REMOTE CONTROL
2 1
+3.3V
R551
100K
REMOTE_JACK_OP+
REMOTE_JACK_OP-
1
3
4
G1214
SC70_5
REMOTE_INT 3
5 RTC_INT#
A
1 2
1 2
REMOTE_JACK
GPIO4
REMOTE_JACK
GPIO4 3,7
3,6
5 4
1 4
3
1
2
3
4
OSCI
OSCO
INT
VSS
VDD
CLKOUT
SCL
SDA
8
7
6
5
BTV_RTC
3
XTAL_32K.IN_R
1 2
2
1 BTV 2 1 BTV_R K
XTAL_32K.IN
I2C_CLK
I2C_DAT
3
3,6,7,8
3,6,7,8
A
VCC_BAT
+3.3V
For EMI & close U505 (RTC)
I2C_CLK
+/-10%
50V
4/13 change Footprint size from
SOD123(BAT43W-Ir=0.5uA) to
SOT523(BAT54T-Ir=2uA)
4/12
I(charge current)< 0.006mA
Phoenix DVT R0D
2 1
A
D
C
REGS_PWR 1
3 AT3_PWR.OFF
IN_+3.3V_HDD1P
R531
0/NA
MD_G
5 4
dI=Vo*(1-Vo/Vi)/(L*f)
Imax=Iomax+(dI/2)
4/14 HD Power IC change from XC6366 to TPS62040
沛波
SPC-04702-6R8-GP (4.7*4.7*2)
2
C28
47U
IN_+3.3V_HDD1P
MD_G
4
11
1
6
2
3
VIN_0
VIN_1
EN
MODE
GND
GND1
SW_1
SW_0
FB
PGND_1
PGND_0
8
7
5
10
9
1 2
+3.3V_HDD1P_FB
R523
560K
+3.3V_HDD1P
1
+3.3V_HDD
2
50 mil
Use low height Cap.
Place it to 1.5mm limit region
Case B
272411476505 : TF041-TH-CAP;47U,6.3V,
+/-20%,3216,1.6H, (A case),F930J476MAA,SMT
4/14 CoLayout two select one
REGS_PWR 1 2 IN_+1.8VP
奇力新
SCDS3D16T-3R3T-B
+1.8VP
1 2 1 2
+1.8V
1
3
2
VIN
CE/MODE
VSS
LX
VOUT
5
4
0805
6.3V
Only for XC9217_PWM
+3.3V
3
REGS_PWR 1 2 IN_+3.3VP
奇力新 SCDS3D16T-3R3T-B
1 2
+3.3VP
1 2
+3.3V
1
3
2
VIN
CE/MODE
VSS
LX
VOUT
5
4
33K/NA
0402
Only for XC9217_PWM
REGS_PWR 1 2 IN_+1.2VP
2
美磊
MSCDRI-2D18-100MG (H=1.8mm)
Vout = 0.5 x [ 1+ (R1 / R2) ]
+1.2VP
1 2
1
2
3
VI
GND
EN
SW
FB
5
4
+1.2VP_FB
1
1 2
+1.2V
SMT2=>20mil
SMT3=>30mil
SMT4=>50mil
D
C
4 RTC_INT#
4,6 DC-DC_START#
DC-DC_START#
3
2
1
+3.3V
B
3 DC-DC_RUN
DC-DC_RUN
1
Soft-Start
2 1
RTC_WAKE# 3
VDD
1
A
V_Cradle
To change into 2A
1 2
G
D D
For Only AC or USB Input to Auto-Power-On
To show the Battery charge status
VBUS
AC_PWR
VBUS
1
2
3
VDD
PSEL
1 2
PSEL1
PSEL1 3
REGS_PWR_P
5 4
ADD EMI ESD Protect
BAT_T
BAT_P
B
REGS_PWR
REGS_PWR 8
To set Battery Charge Current when Plug-in non-high power PC.
3
3
Current_Set
STAT1
3 STAT2
Current_Set
STAT1
STAT2
3 LEARNING
1
VDD
LDO_3.3V
VDD
1
USBPG#
ACPG#
PSEL
LDO_3.3V
VBUS
3 AC_PWR
A K
4
AC
19
18
9
8
20
14
7
2
3
USB
TMR
ISET2
STAT1
STAT2
USBPG
ACPG
CE
PSEL/ISET3
2 1
LDO
OUT_0
OUT_1
OUT_2
BAT_0
BAT_1
1
15
5
6
16
17
TS
DPPM
VSS
ISET1
GND
12
13
11
10
21
DPPM
REGS_PWR_P
VCC_BAT
BAT_TS
4/7 Remove L15 0402GA Bead filter
1 2
1
BAT_T
2
Footprint=SPARKGAP-6
Battery Connector
3
2
1
GND1
GND2
Battery Charge cycle
Now:4 hours
Check Pin assignment
Set Charg Current 450mA
A
3 ACPG#1
ACPG#1
1 2
ACPG#
Value change
Set Adaper power 1A
Phoenix DVT R0D
3 2 1
A
5 4 3 2
+1.8V
1 2
No AGND=>Check
+3.3V
+3.3V
1
1 2
2
AUDIO_LDO_IN
1
2
3
VIN
GND
SHDN
VOUT
ADJ
5
4
AUDIO_LDO_OUT
1 2
HPVDD DBVDD
1 2
GND
D
Close to PhoneJack (J501)
1 2
GND GND
AVDD DCVDD 1 2
+1.8V
1 2
GND
GND
+3.3V
Unuse if need to pull high or low?!
GND
+1.8V
1 2
GND GND
8 HP_ANT
1 2
8 FM_OUT_R
JGND RF_GND
JGND is the Antenna using HeadPhone
Cable place R580 under the trace of
"Cradle_R_OUT"; Don't out of the trace
GND
5
1
2
3
4
6
HP_OUT_R_1
Cradle_R_OUT
HP_OUT_L_1
REMOTE_JACK_1
7
Cradle_L_OUT
C
only for Phoenix
HP_OUT_R_1 2 1 Cradle_R_OUT
PJ_In_T
HP_OUT_R_1
1
7
HP_OUT_L_1
1
+3.3V
4 3 A
8 FM_OUT_L
2
2
K
1
LC->CL to Swap
GND
HP_OUT_R_AC
2 B
1
1
FM_OUT_R
1
FM_OUT_L 1
2
2
2
2
CONNECT CGND TO AGND VIA
FERRITE BEAD AT THE JACK
FM_AUDIO_DC_R
1 2
FM_AUDIO_AC_R
FM_AUDIO_DC_L 1
MIC_IN_1 2
2 FM_AUDIO_AC_L
1
MIC_BIAS
MIC_IN
GND
HP_OUT_R_AC
HP_OUT_L_AC 2
2 1 2
1
5%
0402
2
GND
Replace
PBSS2515F
SOT523N
PJ_In_T
REMOTE_JACK_1
1
1
2
2
1
1
HP_OUT_R
HP_OUT_L
1
1
GND
2
2
23
24
21
22
20
RLINEIN
LLINEIN
MICBIAS
MICIN
VMID
17
16
14
13
ROUT
LOUT
RHPOUT
LHPOUT
GND
PJ_In 3
REMOTE_JACK 3,4
DACDAT
ADCDAT
BCLK
ADCLRC
DACLRC
8
10
7
11
9
CSB
SDIN
SCLK
MODE
XTO
XTI/MCLK
CLKOUT
2
1
6
26
27
28
25 1
I2S_SCLK_IN
1
1
2
I2C ADDRESS: 0011011
2
2
1
+3.3V
1
2
MIC_BIAS
V(MICBIAS)=0.75*AVDD =>0.75*1.8=1.35V
1
Input Full Scale input to ADC:
V(INMIC)=1*AVDD/3.3=1.8/3.3=0.55V (max)
2
I2S_DOUT
I2S_SDIN
I2S_SCLK
I2S_LRC
I2C.DAT
I2C.CLK
2
+3.3V
Check MIC_BIAS
MIC_P_IN
1
I2S_DOUT
I2S_SDIN
I2S_SCLK
I2S_LRC 3
3
3
3
I2C_DAT
I2C_CLK
3,4,7,8
3,4,7,8
CLK_24M.CODEC
2
3
1
HP_OUT_L_AC
+3.3V
+3.3V
3 MUTE
1 2 2
1 2 B
PBSS2515F
SOT523N
10%
25V
10%
25V
GND
GND
2
1 2
Pin E place on the trace ;
No Branch
Critical components
+3.3V
S D
B
1
Buzzer
+3.3V
2
3
1
SP501
2
3
3
3,7
3
BM3_KSI4
BM3_KSI5
Power_Out_C
ANT_SW1#
3
3
3
3
BM3_KSI8
BM3_KSI3
BM3_KSI10
BM3_KSI11
3
3
3,7
3
BM3_KSI12
BM3_KSI0
BM3_KSI1
BM3_KSI2
3,7 BM3_KSI9
BM3_KSI4
BM3_KSI5
BM3_KSI6
BM3_KSI7
BM3_KSI8
BM3_KSI3
BM3_KSI10
BM3_KSI11
BM3_KSI12
BM3_KSI0
BM3_KSI1
BM3_KSI2
BM3_KSI9
default high
For Soft-star
3 TP_PWR#
1
2
DC-DC_START#
3 PWR_ON_OFF#
4,5
+3.3V
1 2
Co-layout
1
0402
+/-10%
MICROPHONE
MIC_IN_1
1
1
Solder point
D
C
GND GND
Check FPC Pin assignment
Diff.with Arizona
VCC_MEM
Touch Pad
B
CLK
DATA
ACK
BM3_KSI5
BM3_KSI4
BM3_KSI10
LED Current limit
LED_PWR
1 2
4
3
2
1
7
6
5
12
11
10
9
8
GND1
GND2
BZZ_GND
4/8
EMI two Cap.s removed for placement
4/14
3 BZZ_PWM
BZZ_PWM
1
PMST3904
SOT_SC70N_1
1
HOLD
2 BM3_KSI12
3
4
5
6
1
2
3 BM3_KSI8
PWR_ON_OFF#
4
5
6
1
2
3
BM3_KSI1
BM3_KSI2
BM3_KSI3
BM3_KSI0
KEY MATRIX GPI DESCRIPTIONS
GPIO FUNCTION DESCRIPTIONS
KSI0
KSI1
KSI2
KSI3
KSI4
KSI5
KSI6
KSI7
KSI8
KSI9
KSI10
KSI11
KSI12
Recording
Volume up
Volume down
Like Music
DATA
CLK xxxxx xxxxx
View xxxxx
ACK xxxxx
HOLD
BM3_KSI1
BM3_KSI2
BM3_KSI3
BM3_KSI0
BM3_KSI5
BM3_KSI4
3 BZZ_CRL#
1
BUZZER MUX
2 3
2
FM_OUT_R
1
FM_OUT_L
A
C551
10P/NA
C27
10P/NA
C26
10P/NA
4/8 Check Size to smaller
Phoenix DVT R0D
5 4 3 2 1
D
C
B
3 AT3_HD[0:15]
3 AT3_HRESET#
3
3
3
AT3_HDMARQ
AT3_HIOW#
AT3_HIOR#
3
3
3
AT3_HA0
AT3_HA1
AT3_HA2
3
3
3
3
3
AT3_HIORDY
AT3_HIRQ.0
AT3_HCS0#
AT3_HCS1#
AT3_HIRQ.1
3 AT3_HDMACK#
5 4 2 3
Cradle POWER SWITCH
1 2
3 OC_CRL_PWR#
+3.3V
1" HDD FPC Connector
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
AT3_HA0
AT3_HA1
AT3_HA2
AT3_HCS0#
AT3_HCS1#
AT3_HDMARQ
AT3_HIOW#
AT3_HIOR#
AT3_HIORDY
AT3_HDMACK#
AT3_HIRQ.0
AT3_HRESET#
+3.3V_HDD
+3.3V_HDD
1 2
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_HRESET#
AT3_HIRQ.0
AT3_HIOW#
AT3_HIOR#
AT3_HCS1#
AT3_HCS0#
AT3_HD15
AT3_HD7
AT3_HD14
AT3_HD6
AT3_HD13
AT3_HD5
AT3_HD12
AT3_HD4
AT3_HD11
AT3_HD3
35
36
37
38
31
32
33
34
25
26
27
28
29
30
39
40
41
42
43
44
45
15
16
17
18
19
20
21
22
23
24
8
9
10
11
12
13
14
6
7
4
5
1
2
3
GND1
GND2
+3.3V_HDD
2 1 AT3_HIORDY
AT3_HIRQ.1
AT3_HIRQ.0
AT3_HDMARQ
1
1
1
2
2
2
+3.3V
3,6 Power_Out_C
4
5
ON
IN
FLAG
GND
OUT
3
2
1
OC#_R
Cradle_Power_Out_R 1 2 Cradle_Power_Out
+3.3V
Cradle_in#
VBUS
3
3
USBID-DEV/HOST#
Power_Request#
USBID-DEV/HOST# 1 2
GND
V_Cradle
DP
DN
VBUS
USB_ID
Power_Request#
I2C_SCL_SW
I2C_SDA_SW
+3.3V
3,4
3
3
3
GPIO4
Wake_Up#
GPIO1
GPIO2
Ext_ANT
Wake_Up#
3 Cradle_in#
Cradle plug_in-->L
Cradle plug_out-->H
6
6
Cradle_R_OUT
Cradle_L_OUT
+3.3V
Cradle_R_OUT
Cradle_L_OUT
Cradle_Power_Out
Cradle_in#
Remove 11 Res.
3 I2C_C_EN
I2C_SCL_SW
I2C_SDA_SW
8
11
10
7
5
2
0B1
0B0
1B1
1B0
S0
S1
I2C_SW
I2C connect
Function
VCC_0
VCC_1
A1
A0
GND_0
GND_1
3
6
4
1
9
12
Logic 0
Floating
I2C_CLK
I2C_DAT
3,4,6,8
3,4,6,8
High Bandwidth: 250 MHz
Fast Transition Speed: 5.2ns max. at 5V
Low On-Resistance: 8. at 3.0V
Logic 1
Cradle to
System
1
CoLayout
2
DP
3 USB_DP
14
15
16
17
9
10
11
12
13
7
8
5
6
3
4
1
2
18
19
20
21
22
23
24
25
26
27
28
29
30
GND1
GND2
GND3
GND4
GND1
GND2
GND3
GND4
8
9
10
11
12
13
14
15
16
17
4
5
6
7
1
2
3
24
25
26
27
28
29
30
18
19
20
21
22
23
DN
3 USB_DN
+3.3V
1 2
+3.3V
A
Power_on/off
3,6
Volume up
3,6
BM3_KSI9
BM3_KSI1
1
2
3 2 4 1 2 MN 3
MN
4
VCC
RESET
2
GND
1
RESET#
RESET# 3,4
GND
For EMI
V_Cradle
VBUS
2 Key buttons to reset
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.)
4 5 3 2
GND
1
8 Ext_ANT
Ext_ANT
4/8
VBUS
USB_ID
Power_Request#
I2C_SCL_SW
I2C_SDA_SW
V_Cradle
Wake_Up#
GPIO1
GPIO2
Cradle_in#
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
Cradle_R_OUT
Cradle_L_OUT
1
1
2
2
GND
Phoenix DVT R0D
1
D
C
USB_ID
Power_Request#
1
2
3
Wake_Up#
GPIO1
6
5
4
I2C_SCL_SW
I2C_SDA_SW
1
2
3
6
5
4
GPIO2
Cradle_in#
1
2
3
6
5
4
Cradle_R_OUT
Cradle_L_OUT
For ESD Negative power Cut
B
A
A
B
D
C
+3.3V
+/-10%
6.3V
3 LCD_ON
High->On
Low ->Off
1 2
5 4 3 2 1
LDO
1
2
3
VIN
GND
SHDN
VOUT
ADJ
5
4
1.5" CSTN PANEL
Vout = 0.59 x [ 1+ (R1 / R2) ]
VCC_2.8V_JS
VCC_2.8V_FB
1
1U
0402
2
VCC_2.8V
3 BKL_ON
5 REGS_PWR
1
5%
0402
2
VCC_3VFM
BKL_ON_R
If CTRL is pulled to GND
,it will disconnect LEDs from GND
3 BKLT_PWM
1 2 BKLT_PWM_RC 1
美磊
MSCDRI-2D18-4R7MG (H=1.8mm)
Ip=400mA+Vin*100ns/L
=402.27mA
1 2
LED1_SW
A K
2
6
9
4
3
5
VIN
CTRL
GND_0
GND_1
FB
SW
OVP
LED
RS
8
7
1
2
BK_FB 1 2
R534
18.2
LED1
1 2
LCD_CS#
25V
LED2
S/W request to Control enable LCD output
Using on PA020
15mils
Swap return
3
3
3
3
3
LCD_CS#
LCD_RST#
LCD_RS
LCD_R/W#
LCD_RD#
3
3
3
3
3
3
3
3
LCD_CS#
LCD_RST#
LCD_RS
LCD_R/W#
LCD_RD#
LCD_D0
LCD_D1
LCD_D2
LCD_D3
LCD_D4
LCD_D5
LCD_D6
LCD_D7
A
K
1
2
LED1 LED2
1 2
1
1
2
2
LCD_D0
LCD_D1
LCD_D2
LCD_D3
LCD_D4
LCD_D5
LCD_D6
LCD_D7
VCC_2.8V
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
VSS
VDD
NC_4
NC_5
NC_6
NC_7
NC_8
D2
3
D4
D5
WR
RD
D0
D1
NC_0
NC_1
PS0
NC_2
NC_3
CS1
RESET
RS
21
22
23
24
25
26
27
28
29
30
31
32
33
13
14
15
16
17
9
10
11
12
18
19
20
7
8
5
6
3
4
1
2
+3.3V
VCC_3VFM +3.3V
1 2
1
2
3
VIN
GND
SHDN
VOUT
5
ADJ
4
1 2 1 2
6 HP_ANT
FM_ANT 1 2 FM_ANT_C 1 2
RF_GND
RF_GND
Change from 0402 to 0603
1 2
RF_GND
1 2
RF_GND RF_GND
VCC_3VFM
Change from 0402 to 0603
RF_GND
RF_GND
ANTENNA SWITCH
SW2
3 2
VCC_3VFM_1
L511
33nH
1 2
9
10
6
7
8
3
4
1
2
5
N.C._0
CPOUT
VCOTANK1
VCOTANK2
VC(VCO)
DGND
VCCD
DATA
CLOCK
N.C._2
N.C._5
LIMDEC2
LIMDEC1
TIFC
VREF
MPXO
TMUTE
VAFL
VAFR
N.C._4
30
29
28
27
26
25
24
23
22
21
2
2
2
1
1
1
2
2
2
1
1
1
RF_GND
FM_OUT_L
FM_OUT_R
FM_OUT_L 6
FM_OUT_R 6
RF_GND
D
C
1 2 Cradle_in_SW#
Cradle_in_SW# 3
B
VCC_3VFM
RF_GND
7 Ext_ANT
Ext_ANT_1 1 2 A K 1 2 FM_ANT_C
RF_GND
VCC_3VFM
RF_GND
2.33V/680ohm = 3.426mA
I2C_DAT
3,4,6,7 I2C_DAT
3,4,6,7 I2C_CLK
I2C_CLK
RF_GND
4 XTAL_32K_V
1
1
1
2
2
2
RF_GND
6via
6via
1
1 2
2
Place on particular Position
1
6via
RF_GND
6via
1
1 2
2 1
6via
RF_GND
6via
2
2
6via
RF_GND
6via (type:VRD016_008)
RF_GND
FM Switch
RF_GND RF_GND
Phoenix DVT R0D
A
5 4 3 2 1
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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