Download Arcam rCube Service manual
Transcript
Arcam rCube Service manual Andy Moore issue 1 Overview The rCube in its simplest form can be thought of as a high performance iPod docking station with more than a few unique features these include. Wireless transmission from either iPod transmitter (Arcam Wand) or USB (Arcam Wave) these are both optional extras. rCubes can transmit to each other from a docked iPod or external source wired source. Internal battery power supply. Easily replaceable iPod header (covered latter in manual). Access Although very compact the rCube is designed to be serviceable with access gained from underneath to all electronic circuits (remove the four rubber feet) you will see four Philips screws, once these are removed the base plate can be lifted away exposing the main circuit board. The main speaker array is not considered a serviceable part but will be available as a complete assembly. Please see detailed exploded view. Circuit description PSU and charge The 19V D.C PSU for the rCube is derived from either an external regulated PSU or if not present from the internal lithium ion battery packs the following is a description of the PSU selection. The external 19V power supply is connected to Con600 and is internally fused by the 4A fuse at location FS600 the rear panel switch can be seen at location SW600(a), D600 is used to prevent reverse bias, D602 and TR600 from a D.C sense circuit this line goes to the main micro at location U301 pin 7. PSU selection is control by the MAX1873 Switch mode Li charge controller at location IC603 the external 19v source can be seen to arrive at pin 15 (DCin) and when present simply by‐passes the chip whilst being monitored by pins 1/2 (current sense) and can be seen to form the 19v source net on the diagram. The internal battery source can be seen connected to CON602 and again travels thru the 2nd pole of switches available on SW600(b) D605 and TR603 are used to form simple logic to indicate to micro U301 that battery power is present, D606 allows a path to the main 19v net whilst preventing reverse bias, the Mosfet (M601) is used to enable charge if necessary when power is present – the entire circuit is overseen by the main micro U301 via PSU and charge continued the feedback given by IC602 allowing for intelligent charging with charge enable provided from the micro via M602 on the control line labeled as charge_enable making a provision for extended cell life. Multiple regulators are used to supply the (low) voltage areas of the design these are 1.4A step down adjustable regulators, REG600 receives a 19v source at pin one the output voltage is set by R601 and R640, Mosfet M600 allows for the PSU disable with the 3V standby supply being tapped of prior to the switch. REG602 and REG603 operate in a similar fashion although utilize the chips own PSU shutdown control option at pin 2 (SD) under control of micro U301, a more conventional regulator is used at location REG601 to provide the 1.8v core supply to U301. IC601 provides a logic switched (EN_iPod_PWR) current limited +5v supply to the iPod to whilst also preventing an over current situation at the rear panel USB input +3v1 this is reported to the main micro via the USB_PWR_FAULT line. REG604 (LDO) provides a 3v1 supply to the Kleer and R.F circuits and is sourced from the +5v supply. IC600 is a charge pump convertor on the +5VA power supply rail. Micro The Micro is shown in two halves on the diagram shown as IC301(a) detailing port allocation and IC301(b) detailing power supply requirements and programming header with reset provided by IC303. PSU requirements include 3V3 STBY and V1.8 (internally generated by the ATMEL) The below table details the IC301 pin allocations and functions Pin number 6 7 9 10 11 12 13 Description Associated circuit(s) AMP_TEMP_COM DC_PWR_PRESENT V_IOUT_POT BATT_PWR_PRESENT POS_SW DSP_12C_SDA DSP_12C_SDL Pin 32 of power amps and locations IC504 IC505 IC506 From TR600 (sheet 6) From IC603 via IC602 MAX1873 (sheet 6) From TR603 (sheet 6) SW301 Rear Panel Bass select switch DSP at location IC400 DSP at Location IC400 IC301 pin allocations and functions continued Pin number 14 16 24 25 26 27 28 29 30 31 33 34 35 36 37 38 41 42 43 44 45 46 47 54 55 57 58 59 60 61 62 50 51 52 Description Associated circuit(s) INT_DISPLAY STBY_LED ACC_POWER IPOD_DETECT VID_CABLE_0 PSU_DISABLE I2C_SDl I2c_SDA UC595_CLK UC595_DATA PROGRAM_SW HOST_SPI_DATA_OUT HOST_SPI_CLK HOST_SPI_CS* UC595_LATCH USB_PWR_FAULT SPI_MODE0 SPI_MODE1 VID_CABLE_1 IR_EYE CHARGE_DISABLE ATMEL_/OE UART_UC_TO_KLEER VOL_CLK VOL_DAT IPOD_TO_UC_RS232 UC_TO_IPOD_RS232 UART_KLEER_TO_UC HOST_SPI_DATA_IN AMP_SHDN* AMP_MUTE* USB_D+_UC USB_D‐_UC +5V(USB)_STICK To top plate display via iPod header board To top plate display via iPod hearer board From iPod header From iPod Header From multi pin video connector at location SKT200 Regulators RG602 and RG603 Apple authentication chip at location IC300 Apple authentication chip at location IC300 8 bit shift register at location IC302(A) 8 bit shift register at location IC302(A) No Fit IC405 and debug IC405 and debug IC405 and debug 8 bit shift register at location IC301(A) From IC601 Receive / Transmit toggle via IC403 Receive / Transmit toggle via IC403 From multi pin video connector at location SKT200 From iPod header interface To IC603 via Mosfet M602 Kleer interface data To IC501 / IC502 volume controls To IC501 / IC502 volume controls iPod interface Data iPod interface Data Kleer interface data IC405 and debug To power amp packages IC504, IC504, IC506 To power amp packages IC504, IC504, IC506 USB stick via ESD protection package IC304 USB stick via ESD protection package IC304 +5V USB stick PSU Audio in / Video out iPod audio can be seen as IPOD_AUDO_L and IPOD_AUDIO_R this is driven thru the NJM2114 op‐amp at IC201(A/B) before arriving at the DG413 analogue cmos chip at location IC200 (A/B) this switch allows for the routing of either audio from a docked iPod or from the external path via 3.5mm rear panel stereo jack at location SK202 again coming in via a NJN2114 at location IC202 (A/B) also present on this page is the YUV and Composite video outputs these signals are derived directly from the source device and can be seen on circuit as SVID‐C COMP‐Y SVID‐Y COMP‐PR CVBS COMP‐PB Default output is Composite with YUV switched when an “Arcam” YUV cable is inserted and the sense on VID_CABLE_0 and VID_CABLE_1 are triggered. KLEER and DSP All audio signals are routed thru the Analog Devices DSP chip at location IC400 allowing for not only the High/Low pass filtering of channels for the power amp stage but also bespoke audio manipulation, the analogue audio from either docked iPod or Aux L + R in appearing at pins 78/79 – a Wolfson WM8805 running form a ref 11.2896Mhz clock is used primarily for Jitter reduction for the Kleer input chip at Location IC407 – it is important to note that the Kleer Chip is a receiver or transmitter the Kleer chip is under control of the micro at position U301 the receive / transmit circuit can be seen on the R.F amp circuit. Data for transmission from a docked or external source can be seen coming from the DSP as SDATA_DSP_OUT. The E2PROMS at locations IC405 and IC406 are used to store transmit / receive lock history. RF AMP Think of this stage as a transceiver i.e it will both send and receive information from the external target the stage uses toggle switches to effective switch the between the transmit and receive stages. RF AMP continue The RF stage is both Receive or Transmit (transceiver) allowing Cubes to be linked for docked iPod source and external analogue inputs hence you will see two spate paths that are switched R.F switches seen as IC701 IC702 IC703 two separate Antenna are used and the rCube has the ability to select the most stable aerial at any given time the audio path into/out of the Kleer chip is seen as KL3012 regardless of status – when in receive mode the RF power amp is bypassed by IC701, IC702 in transmission mode both switches are toggled to bring the Saw filter FL700 and Low RF Pass filter FL701 with Power Amp IC704 back in line, The two antenna are connected to the surface mount sockets at SKT700 an SKT701. DAC Filters and Amplifiers Audio arrive the DAC filters and Amplifiers circuit from the DSP as 4 separate channels these being TWEET_L/ TWEET_R/ WOOF_L/ WOOF_R each channel travel thru an identical filter circuit TWEET_L channel will be described. TWEET_R audio arrive at capacitor C508 before traveling into the filter based around the NJM2114 at location IC500 the audio is further filtered by the network of capacitors based around C326 and C327 in combination with C510 – audio then passes into the Volume control IC at location IC501 on pin 1 and can be seen to exit (volume adjusted) on pin 14 – the volume control is under control of the main micro at position U302 via line VOL_CLK / VOL_DAT the line will know be known as TWEET_VOL_R and travels into the Power amp chip at location IC507 (shared with TWEET_VOL_L) this package is driven from the +19v_amp supply and is thermally protect to trigger at 100c / standby and mute control comes from the main micro and temp status of the power amp can be reported to back to the micro. The WOOF_VOL_L and WOOF_VOL_R audio paths use a bridged power amp each seen at locations IC504 and IC05. Display and keyboard The display board is connected to the main board via the iPod header board and it’s primary link on the main board is main micro U301. The board is built around the IC1 a AT42QT1060 6‐channel sensor IC this allows for capacitive sensors as keys and also perform the role of driving the top plate LED’s with exception of Standby LED status red (this comes directly from U301) the chip is supplied by the 3V14 STBY power supply, the reset circuit shown on the circuit was not required by the final design. All LEDs are driven from the +5_DIS rail apart from standby (red) as this is on the 3V14(STBY) rail. Modes indicated by the standby LED Mode Standby Power on Power on charge Program mode (standby held +5 secs) Receiving software Illumination Red Blue Violet Flashing red Fast (strobe)red Modes indicated by input LED Mode Syncing to docked iPod Sync complete Illumination Flashing green Solid green Mode indicated by wireless LED Mode No available lock Lock present Searching for link (hold wireless key +5 secs) Illumination Red Green Flashing red Mode indicated by Vol + / ‐ LEDS Mode Mute Illumination Both LEDS on green The IR sensor at location RX1 is connected directly to U301 and runs from the 3V14 supply Check software version Please note – instructions are based on an 80GB iPod classic – the route path is common to all variants. Place an iPod / iPhone in the rCubes docking receptacle • • Navigate to settings (click) Navigate to about (click) You will now see information regarding the iPods capacity/memory usage navigate to screen four as indicated by the dots at the bottom of the screen and you should see the below or similar. rCube Model rCube Manufacturer Arcam Serial number Version V1.07 **** In this instance we can see that the Software version is V1.07. To update software Download the latest SW version available from [email protected] or local distributor. Load this onto a USB memory stick (this needs to be a standard memory stick not on that carries a boot loader such a Cruzors). • • • • • • • With the cube in standby Press and hold the top plate standby button for +5 seconds Standby LED should start to flash with a frequency of 2 time a second Place memory stick in rear panel port LED will now strobe very quickly and the rCube will reset after 15 seconds Remove USB stick Power cycle rCube (rear panel switch) Check that software version is as expected using iPod as in previously explained procedure. Accidental software mode initialization If the rCube is accidently put into program / update mode – simply power cycle to rCube to return to normal operation. Notes for mac users The USB update should be stick should be formatted to FAT32 standard and the only file present on the stick should be the software update – i.e no indexing files such as DS_Store files, thumbs.db files use a software such Cleanmymac available at http://www.macpaw.com/uk/cleanmymac/features You are interested in the Device Cleanup feature. Dia 3.2mm Dia 3.5mm Dia 3.5mm 1 GND Dia 3.5mm FIX108 1 Dia 3.5mm P0FIX10801 FIX107 P0FIX10701 1 GND FIX106 P0FIX10601 1 GND FIX105 P0FIX10501 1 FIX101 P0FIX10101 P0FIX10001 FIX100 1 Dia 3.5mm P0FIX10401 FIX104 C100 1 P0P1000TPP0C10001 P100 Dia 3.5mm P0C10002 GND P0C10102 GND P0C10202 GND 10N 50V FIX103 P0FIX10301 PSU + Battery charger C101 1 P0P1010TPP0C10101 P101 U_L182_1 L182_1.0 SoundCube PSU + charge.SchDoc Dia 3.2mm 10N 50V P0FIX10201 FIX102 Audio in - Video out CHARGE_DISABLE PSU_DISABLE EN_IPOD_PWR Host Micro ACC_POWER IPOD_DETECT MICRO_READY CHARGE_DISABLE PSU_DISABLE EN_IPOD_PWR USB_PWR_FAULT* AN_IP_SEL IR_EYE I2C_SDA I2C_SCL INT_DISPLAY* SPARE2 STBY_LED VID_CABLE_0 VID_CABLE_1 AN_IP_SEL FD104 TL101 TL103 FD101 FD103 FD105 P0FD10401 FD102 P0FD10201 FD100 P0FD10001 TL102 V_IOUT_POT DC_PWR_PRESENT* BATT_PWR_PRESENT* N0I2C0SDA I2C_SDA N0I2C0SCL I2C_SCL TL100 P0FD10501 ACC_POWER IPOD_DETECT MICRO_READY DC_PWR_PRESENT* BATT_PWR_PRESENT* P0FD10301 UC_TO_IPOD_RS232 IPOD_TO_UC_RS232 10N 50V V_IOUT_POT U_L182_1 L182_1.0 SoundCube Micro.SchDoc UC_TO_IPOD_RS232 IPOD_TO_UC_RS232 Dia 3.5mm P0FD10101 U_L182_1 L182_1.0 SoundCube audio in video out.SchDoc VID_CABLE_0 VID_CABLE_1 P0P1020TPP0C10201 P102 (Incl. conns to iPod board and display) IR_EYE I2C_SDA I2C_SCL INT_DISPLAY* SPARE2 STBY_LED C102 1 USB_PWR_FAULT* SPDIF_RST* DSP_RES* DSP_I2C_SDA DSP_I2C_SCL HOST_SPI_CS* HOST_SPI_DATA_OUT HOST_SPI_CLK HOST_SPI_DATA_IN I2C_SDA I2C_SCL Kleer module + DSP (ADC/DAC) RF Amp + Diversity U_L182_1 L182_1.0 SoundCube kleer + DSP.SchDoc U_L182_1 L182_1.0 SoundCube RF amp.SchDoc SPDIF_RST* I2C_SDA I2C_SCL DSP_RES* DSP_I2C_SDA DSP_I2C_SCL KLR3012_RF RX_EN TX_EN DIV_CTRL KLR3012_RF RX_EN TX_EN DIV_CTRL HOST_SPI_CS* HOST_SPI_DATA_OUT HOST_SPI_CLK HOST_SPI_DATA_IN IPOD_AUX_R IPOD_AUX_L KLEER_RESET KLEER_SDATA_DIR UART_UC_TO_KLEER UART_KLEER_TO_UC SPI_MODE0 SPI_MODE1 KLEER_RESET KLEER_SDATA_DIR AMP_MUTE* AMP_SHDN* VOL_CLK VOL_DAT U_L182_1 L182_1.0 SoundCube filters + amps.SchDoc SPI_MODE0 SPI_MODE1 IPOD_AUX_R IPOD_AUX_L AMP_TEMP_COM* Audio Amp and DAC filters UART_UC_TO_KLEER UART_KLEER_TO_UC TWEET_L TWEET_R TWEET_L TWEET_R WOOF_L WOOF_R WOOF_L WOOF_R AMP_TEMP_COM* AMP_MUTE* AMP_SHDN* VOL_CLK VOL_DAT ITEM QTY PCB100 1 PART No. DESCRIPTION NOTES L182PB Blank PCB SoundCube Main DRAWING TITLE SoundCube - Top Level 10_E136 PK 09/09/11 Add test points 1.0 Filename: 10_E074 PK 30/03/10 Remove sense star connection C.0 10_E001 PK 05-01-10 None to this sheet B.0 PK 08-07-09 ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR L182_1.0 SoundCube Top level.SchDoc Notes: 09_E142 Contact Engineer: Mark Tweedale [email protected] ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: DATE 28/09/2010 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE Sheet 1 of 7 A2 DRAWING NO. L182CT Reserved Composite / S-Video cable attached Component (3-wire video) cable attached No cable - Default to Composite (CVBS) 1mA current thru diode Analogue input selection table: AN_IP_SEL 0 = iPod 1 = Aux IC200E +5VA 13 P0C21902 Video breakout cable detection: VID_CABLE_0 VID_CABLE_1 0 0 0 1 1 0 1 1 P0IC200E013 V+ 12 P0IC200E012 2 P0P2180TP 10K 0W063 P0C21901 P201 P0P2010TP P0C20302 N0AN0IP0SEL AN_IP_SEL P214 P203 P0P2030TP -5V 100N 16V GND P0C20202 R204 47K 0W063 0603 P205 P0P2050TP P0R20501 0R0 0W063 P202 P0IPOD0AUX0R IPOD_AUX_R P0C20201 P0P2020TP 10UF 50V GND P225 P0P2250TP C205 100P 50V 0603 IC201B NJM2114M 5 P0IC201B05 P219 7 P0IC201B07 R209 GND 6 P0IC201B06 P220 P0R20902 P0P2190TP 47R P227 0W063 0603 P0P2200TP R211 P0R21101 DG413DY IC200B R208 7 P0IC200B07 P0R20801 P0R20802 P0P2270TP P0R21102 C209 P0C20901 50V 6 P206 P0P2060TP N0AN0IP0SEL AN_IP_SEL 10K 0W063 Connect remote sense to av return at ffc C206 P0IC200B06 P0C20602 R210 47K 0W063 0603 P207 P0IPOD0AUX0L IPOD_AUX_L P0C20601 P0P2070TP 10UF 50V GND 100P 0603 P0C20902 SVID-C_COMP-Y P208 N0SVID0C0COMP0Y +5VA P0P2080TP C207 P0C20701 P209 P0C20702 470UF 16V P0P2090TP P210 C212 P0C21601 GND R215 13K 0W063 P223 P0R21502 P0R22101 P216 P0P2160TP P217 P0P2170TP P0C21002 470UF GND CVBS_COMP-PB P212 P0P2120TP P0C21101 16V C214 P213 P0C21401 P0C21402 C215 P0C21502 100N P0C21501 470UF P0P2230TP IC202B NJM2114M 5 7 P224 P0IC202B07 R221 10K 0W063 6 P0P2240TP P0IC202B06 R220 P0R22001 16V P0P2130TP 16V 2.3Vrms should give just under 1vrms out of op amps +3V14 R216 P0R21601 R217 P0R21602 P0R21701 10K 0W063 0603 10K 0W063 0603 P0R21702 P0VID0CABLE00 VID_CABLE_0 14 P0IC200D014 P0IC200D015 P0R22002 P0P2290TP 47R P229 0W063 0603 1201-05M NELTRON GND IC200D DG413DY 15 3 4 P0SKT20001 1 P0SKT20003 16V C211 P0C21102 100N N0CVBS0COMP0PB P0IC202B05 6 P0SKT20006 P0SKT20004 2 P0VID0CABLE01 VID_CABLE_1 N0AN0IP0SEL AN_IP_SEL 16 P0IC200D016 -5V P0R22102 -5V P0C21001 P0SKT20002 N0AN0IP0SEL AN_IP_SEL GND GND 10 C210 P0D2010A P0D2010COM P0D2000COM Jye Tai 3551 N0AUX0R AUX_R N0AUX0L AUX_L 11 P211 N0SVID0Y0COMP0PR SVID-Y_COMP-PR P0P2110TP P0IC200C010 P0IC200C011 P0R21402 P0P2280TP P0R21401 P0C21602 100N 16V 7 SKT200 8 P0SKT20008 5 P0SKT20005 VID_CABLE_0 2 P0SK20203 R 3 L P0SK20204 4 P0SK20205 5 P0SK20201 1 P0SK20202 R214 IC200C DG413DY D201 BAT54S +5VA P0R21501 SK202 -5V 16V P0SKT20007 47R P228 0W063 0603 C216 P0C20801 N0VID0CABLE01 VID_CABLE_1 8 2 P0IC202A02 100N GND 16V IC202A NJM2114M P222 P0IC202A01 1 P0P2220TP 9 R212 10K 0W063 C208 P0C20802 100N P0C21202 P0IC200C09 P0R21201 13K 0W063 3 P0IC202A03 4 P221 P0R21302 P0P2210TP P0IC202A04 P0R21301 P0R21202 R213 P0IC202A08 P0C21201 P0P2100TP N0VID0CABLE00 R207 10K 0W063 SCRN1 P0SKT2000SCRN1 SCRN2 P0SKT2000SCRN2 SCRN3 P0SKT2000SCRN3 P0R20602 P0R21001 10K 0W063 100P 0603 P0C20402 P0R21002 R206 P0R20601 P0C20501 P0IR0EYE IR_EYE P0I2C0SDA I2C_SDA P0I2C0SCL I2C_SCL P0INT0DISPLAY* INT_DISPLAY* P0SPARE2 SPARE2 P0STBY0LED STBY_LED P0IPOD0TO0UC0RS232 IPOD_TO_UC_RS232 P0UC0TO0IPOD0RS232 UC_TO_IPOD_RS232 P0ACC0POWER ACC_POWER P0IPOD0DETECT IPOD_DETECT P0MICRO0READY MICRO_READY P0D2010K -5V P0R20502 C204 P0C20401 50V 10K 0W063 P0D2000A P0C22102 DG413DY C221 100N 16V 10K 0W063 MOLEX 52807 P0D2000K 4 P0IC200E04 V- C219 100N 16V R205 P0R21802 P0R20901 D200 BAT54S +5VA P0C22101 2 8 R218 3 C202 P0IC200A02 P0IC200A03 P0R20202 P0P2260TP 47R P226 0W063 0603 C203 P0C20301 IC200A DG413DY P0R20401 8 3 P0IC201A03 P0P2140TP P0R21801 100N GND 16V IC201A P0IC201A01 P215 R202 1 NJM2114MP0P2150TP P0R20201 P0R20402 P0R20302 P0C20502 N0IPOD0A/V0RETURN IPOD_A/V_RETURN N0IPOD0AUDIO0R IPOD_AUDIO_R N0REMOTE0SENSE REMOTE_SENSE P204 P0P2040TP N0IPOD0AUDIO0L IPOD_AUDIO_L N0IPOD0A/V0RETURN IPOD_A/V_RETURN N0SVID0C0COMP0Y SVID-C_COMP-Y N0SVID0Y0COMP0PR SVID-Y_COMP-PR N0CVBS0COMP0PB CVBS_COMP-PB N0IR0EYE IR_EYE N0I2C0SDA I2C_SDA N0I2C0SCL I2C_SCL N0INT0DISPLAY* INT_DISPLAY* N0SPARE2 SPARE2 N0STBY0LED STBY_LED N0IPOD0TO0UC0RS232 IPOD_TO_UC_RS232 N0UC0TO0IPOD0RS232 UC_TO_IPOD_RS232 N0ACC0POWER ACC_POWER N0IPOD0DETECT IPOD_DETECT N0MICRO0READY MICRO_READY GND P0IC201A02 P218 P0C20002 P0IC200B08 +5V +3V14(STBY) GND P0C20001 1 P0R20301 C201 100P 50V 0603 5 P0IC200E05 GND P0IC200A01 R203 R201 10K 0W063 P0IC201A08 P0R20101 GND P0R20701 Pins swapped over c.f. iPod connector board 10K 0W063 C200 P0P2000TP 4 +5V(USB)_IPOD P0R20702 30 29 P0CON200028 28 P0CON200027 27 P0CON200026 26 P0CON200025 25 P0CON200024 24 P0CON200023 23 P0CON200022 22 P0CON200021 21 P0CON200020 20 P0CON200019 19 P0CON200018 18 P0CON200017 17 P0CON200016 16 P0CON200015 15 P0CON200014 14 P0CON200013 13 P0CON200012 12 P0CON200011 11 P0CON200010 10 P0CON20009 9 P0CON20008 8 P0CON20007 7 P0CON20006 6 P0CON20005 5 P0CON20004 4 P0CON20003 3 P0CON20002 2 P0CON20001 1 P0CON200029 P0R20002 P0IC201A04 P0R20001 P0CON200030 +5VA P200 P0C20101 R200 CON200 P0C20102 To iPod connector board P0R20102 VL SKT201 2b P0SKT20102b N0IPOD0A/V0RETURN IPOD_A/V_RETURN 1a P0SKT20101a JYE TAI RJ P0AN0IP0SEL AN_IP_SEL DRAWING TITLE SoundCube - audio in / video out ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR Filename: 10_E136 PK 09/09/11 Add test points 1.0 L182_1.0 SoundCube audio in video out.SchDoc 10_E074 PK 30/03/10 Correct grounding scheme for video connectors Correct -ve input to input op amps C.0 10_E001 PK 05-01-10 Change op amps to unity gain single ended B.0 09_E142 PK 08-07-09 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE Notes: Contact Engineer: Mark Tweedale [email protected] ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: DATE 28/09/2010 Sheet 2 of 7 A3 DRAWING NO. L182CT +3V14(STBY) Aardvark debug pin headers C302 GND GND 34 HOST_SPI_DATA_OUT 33 N0PROGRAM0SW PROGRAM_SW 31 N0UC5950DATA UC595_DATA 30 N0UC5950CLK UC595_CLK 29 N0I2C0SDA I2C_SDA 28 N0I2C0SCL I2C_SCL N0USB0D00UC USB_D-_UC 51 P0IC301A051 DDM P0INT0DISPLAY* INT_DISPLAY* 24 P0IC301A024 PB02 25 P0IC301A025 PB03 26 P0IC301A026 PB04 27 P0IC301A027 PB05 N0ACC0POWER ACC_POWER N0IPOD0DETECT IPOD_DETECT N0VID0CABLE00 VID_CABLE_0 N0PSU0DISABLE PSU_DISABLE 16 P0IC301A016 PA31 14 P0IC301A014 PA08 N0INT0DISPLAY* INT_DISPLAY* N0STBY0LED STBY_LED 13 P0IC301A013 PA07 N0DSP0I2C0SCL DSP_I2C_SCL 15 P0IC301A015 PA30 12 P0IC301A012 PA06 N0DSP0I2C0SDA DSP_I2C_SDA N0V0IOUT0POT V_IOUT_POT N0SPARE2 SPARE2 11 P0IC301A011 PA05 N0POS0SW POS_SW 10 P0IC301A010 PA04 7 P0IC301A07 PB01 N0DC0PWR0PRESENT* DC_PWR_PRESENT* 9 P0IC301A09 PA03 6 P0IC301A06 PB00 VBUS SPARE2P0SPARE2 P319 N0I2C0SDA I2C_SDA N0I2C0SCL I2C_SCL P320 P321 P0P3210TP N0IPOD0DETECT IPOD_DETECT N0ACC0POWER ACC_POWER P0P3230TP N0SPARE2 SPARE2 WAS STANDBY SW P0P3250TP P0R31201 +3V14(RF) I2C_SDAP0I2C0SDA I2C_SCLP0I2C0SCL P0P3200TP P322 P0PSU0DISABLE PSU_DISABLE P0P3220TP P323 P324 R313 10K 0W063 0603 R314 10K 0W063 0603 N0UART0KLEER0TO0UC UART_KLEER_TO_UC P0P3240TP P325 N0STBY0LED STBY_LED P326 N0UART0UC0TO0KLEER UART_UC_TO_KLEER P0STBY0LED STBY_LED P0P3260TP P327 P328 P0P3280TP P0DSP0I2C0SDA DSP_I2C_SDA P0DSP0I2C0SCL DSP_I2C_SCL P0P3270TP +3V14 P333 P0P3330TP R315 10K 0W063 0603 R316 10K 0W063 0603 N0DSP0I2C0SDA DSP_I2C_SDA P334 P0P3340TP P335 P0P3350TP P0AMP0SHDN* AMP_SHDN* P0AMP0MUTE* AMP_MUTE* N0DSP0I2C0SCL DSP_I2C_SCL P0R31802 P0R31701 N0HOST0SPI0CLK HOST_SPI_CLK P0R31702 N0HOST0SPI0CS* HOST_SPI_CS* P0KLEER0SDATA0DIR KLEER_SDATA_DIR P0KLEER0RESET KLEER_RESET R317 10K 0W063 0603 R320 10K 0W063 0603 GND GND VDDIN C321 1N0 50V 0402 19 VCC N0TMS TMS N0TDO TDO N0TDI TDI N0TCK TCK +3V14(STBY) IC303 LM809M3-2.63 P0IC301B063 VDDANA /RESET P0IC301B019 GND 63 P354 P0P3540TP N0ATMEL0/RES ATMEL_/RES RST P0IC3030RST* P0IC3030GND 49P0IC301B049 GND 23P0IC301B023 GND 17P0IC301B017 GND C312 10N 16V 0402 ADVREF P0IC301B018 8 P0IC302B08 VDDPLL P0IC301B053 1P0IC301B01 GND P0C31201 P0C31202 P0C31101 P0C31102 GND 18 16 P0IC302B016 5 TMSP0IC301B04 4 TDO P0IC301B03 3 TDI P0IC301B02 2 TCK P0IC301B05 GND C311 1UF 6.3V 0603 P0C31501 +3V14(STBY) IC302B P0IC301B048 P0C31001 P0C32101 P0C32102 P0C32001 P0C32002 C320 100N 16V 0402 P0R30602 P0R30601 VDDIO VDDIO P0IC301B064 VDDIO P0IC301B032 +1V8_AT64 53 IC301B AT32UC3B0256-A2UT P0C31002 32 48 64 P0P3000TP P300 P0IC3030VCC GND VCC C319 100N 16V 0402 N0ATMEL0/OE ATMEL_/OE Pullup makes 595 outputs HiZ until micro is awake to set the outputs to the correct state. Critical outputs of '595 will be held in correct state by pull up/down resistors. GND 470P 50V P0IC301B021 P0C31901 C318 100N 16V 0402 P0C31902 P0C31801 C317 100N 16V 0402 P0C31802 P0C31701 P0C31702 C316 100N 16V 0402 P0C30801 C315 100N 16V 0402 74HC595D SO-16 P0C30901 1N0 50V 0402 GND P0C30802 C314 100N 16V 0402 R306 10K 0W063 0603 P0C30902 P0C30702 56 22 8 P0C30701 C303 100N 16V 0402 P0C31502 C308 P0C31401 C307 P353 P0P3530TP P0C31402 2u2F 50V 1206 P0C30301 10uF 10V 1206 P0C30502 P0IC301B056 P0R31002 P0C30501 +3V14(STBY) VDDCORE P0IC301B022 VDDCORE P0IC301B08 VDDCORE NF C313 100N 16V 0603 P0C30401 VDDOUT 0R0 0W063 0603 P0DSP0RES* DSP_RES* P0EN0IPOD0PWR EN_IPOD_PWR P0MICRO0READY MICRO_READY P0AN0IP0SEL AN_IP_SEL P0SPDIF0RST* SPDIF_RST* 74HC595D SO-16 +1V8_AT64 20 P0C30402 N0USB0D+0UC USB_D+_UC P352 P0P3520TP C305 P0C30302 C304 N0USB0D00UC USB_D-_UC P349 P0P3490TP NF R310 P0R31001 R319 10K 0W063 0603 N0DSP0RES* DSP_RES* N0EN0IPOD0PWR EN_IPOD_PWR N0MICRO0READY MICRO_READY N0AN0IP0SEL AN_IP_SEL N0SPDIF0RST* SPDIF_RST* N0AUTH0RST* AUTH_RST* N0KLEER0SDATA0DIR KLEER_SDATA_DIR N0KLEER0RESET KLEER_RESET +1V8_AT64 P0IC301B020 USBLC6-2SC6 SOT23-6L +3V14(STBY) 21 IC304 P0IC30406 1 P0IC30401 6 I/O1 I/O1P0IC30405 2 P0IC30402 5 GND VBUSP0IC30404 3 P0IC30403 4 I/O2 I/O2 P0C31301 GND R318 10K 0W063 0603 N0ATMEL0/RES ATMEL_/RES P337 P0P3370TP P338 P0P3380TP P340 P0P3400TP P342 P0P3420TP P343 P0P3430TP P344 P0P3440TP P345 P0P3450TP P346 P0P3460TP P0R32001 P0R31801 N0UC5950CLK UC595_CLK P339 P0P3390TP N0UC5950LATCH UC595_LATCH P341 P0P3410TP 15 Q0 P0IC302A01 1 Q1 P0IC302A02 11 P0IC302A011 2 SHCP Q2 P0IC302A03 12 P0IC302A012 3 STCP Q3 P0IC302A04 4 Q4 P0IC302A05 10 P0IC302A010 5 MR Q5 P0IC302A06 13 P0IC302A013 6 OE Q6 P0IC302A07 7 Q7 P0IC302A099 Q7'/DO P0IC302A015 P0R32002 P0R30402 IC302A 14P0IC302A014 DS HC family to run on 3V14 supply +5V(USB)_STICK P0C31601 GND P317 P0HOST0SPI0CS* HOST_SPI_CS* P0HOST0SPI0CLK HOST_SPI_CLK P0HOST0SPI0DATA0OUT HOST_SPI_DATA_OUT GND P0C31602 HARWIN M20-972 P0P3190TP N0UC5950DATA UC595_DATA P336 P0P3360TP +1V8 _AT64 IS GENERATED BY THE ATMEL P0C31302 P0C30601 P0C30602 5 P0CON30405 6 P0CON30406 P0R30902 0R0 0W063 0603 +3V14(STBY) N0TDI TDI N0INT0DISPLAY* INT_DISPLAY* N0AMP0TEMP0COM* AMP_TEMP_COM* P0AMP0TEMP0COM* AMP_TEMP_COM* P0R31901 P0R30401 P0CON30502 N0TMS TMS N0ATMEL0/RES ATMEL_/RES P0P3170TP N0AMP0SHDN* AMP_SHDN* N0AMP0MUTE* AMP_MUTE* GND N0TDO TDO N0HOST0SPI0DATA0IN HOST_SPI_DATA_IN N0HOST0SPI0CS* HOST_SPI_CS* P315 P0P3150TP N0HOST0SPI0CLK HOST_SPI_CLK P316 P0P3160TP N0HOST0SPI0DATA0OUT HOST_SPI_DATA_OUT P318 P0P3180TP N0BATT0PWR0PRESENT* BATT_PWR_PRESENT* P330 P0P3300TP N0DC0PWR0PRESENT* DC_PWR_PRESENT* P331 P0P3310TP N0V0IOUT0POT V_IOUT_POT P332 P0P3320TP P0BATT0PWR0PRESENT* BATT_PWR_PRESENT* P0DC0PWR0PRESENT* DC_PWR_PRESENT* P0V0IOUT0POT V_IOUT_POT R304 +3V14(STBY) N0TCK TCK N0IPOD0TO0UC0RS232 IPOD_TO_UC_RS232 +3V14(STBY) GND 1 2 P0CON30503 3 P0CON30504 4 P0CON30505 5 P0CON30506 6 P0CON30507 7 P0CON30508 8 P0CON30509 9 P0CON305010 10 P0CHARGE0DISABLE CHARGE_DISABLE R312 10K 0W063 0603 +3V14 P0R30901 P0CON30501 P314 P0P3140TP N0DSP0I2C0SDA DSP_I2C_SDA N0DSP0I2C0SCL DSP_I2C_SCL NF R309 CON305 P313 P0P3130TP R311 10K 0W063 0603 P0R31401 P0HOST0SPI0DATA0IN HOST_SPI_DATA_IN USB ESD protection. +3V14(STBY) P0SPI0MODE0 SPI_MODE0 P0SPI0MODE1 SPI_MODE1 P0P3120TP N0HOST0SPI0DATA0OUT 47K 0W063 0603 GND P311 P312 P0P3110TP N0CHARGE0DISABLE CHARGE_DISABLE P0IC301A052 GND GND +3V14(STBY) P0P3100TP N0USB0PWR0FAULT* USB_PWR_FAULT* P0IPOD0DETECT IPOD_DETECT P0ACC0POWER ACC_POWER R322 47K 0W063 0603 C306 100UF 16V RX P309 P310 P0P3090TP N0PSU0DISABLE PSU_DISABLE P0IC301A028 N0AMP0TEMP0COM* AMP_TEMP_COM* 52 P0IC301A029 PA09 HARWIN M20-973 P308 P0R31402 P0IC301A031 PA10 P0UART0UC0TO0KLEER UART_UC_TO_KLEER N0HOST0SPI0CLK HOST_SPI_CLK N0HOST0SPI0DATA0OUT HOST_SPI_DATA_OUT N0HOST0SPI0CS* HOST_SPI_CS* N0HOST0SPI0DATA0IN HOST_SPI_DATA_IN N0UC0TO0IPOD0RS232 UC_TO_IPOD_RS232 P0IC301A033 P0IC301A030 50 P0IC301A050 DDP N0UART0UC0TO0KLEER UART_UC_TO_KLEER P307 P0P3070TP P0CON30302 P0R31202 N0HOST0SPI0CLK HOST_SPI_CLK 1 2 P0CON30303 3 P0CON30304 4 P0CON30301 VOL_DAT P0VOL0CLK VOL_CLK P0R31301 PA12 P0P3080TP CON303 P0VOL0DAT P0R31302 62 P0IC301A062 PA27 N0IR0EYE IR_EYE P304 P305 P0P3050TP P0P3040TP P0R31501 N0AMP0MUTE* AMP_MUTE* P306 P0UC0TO0IPOD0RS232 UC_TO_IPOD_RS232 P0R31502 PA13 P0P3060TP P303 P0P3030TP P0R31101 37 P0IC301A037 PA17 61 P0IC301A061 PA26 N0POS0SW POS_SW CON304 +5V(USB)_STICK Tyco 292303 P0P3550TP P355 P0CON30401 1 P0CON30402 N0USB0D0 2 USB_DP347P0R30501 39R P348 P0P3470TP R305 P0R30502 P0P3480TP P0CON30403 N0USB0D+ 3 USB_D+ P350 39R P351 P0P3500TP P0R30701R307 P0R30702 P0P3510TP P0CON30404 4 0W063 0603 CON302 P0CON30201 N0I2C0SCL 1 I2C_SCL P0CON30202 N0I2C0SDA 2 I2C_SDA P0R31102 N0UC5950LATCH UC595_LATCH N0USB0PWR0FAULT* USB_PWR_FAULT* 38 P0IC301A038 PB06 39 P0IC301A039 PA18 PA19 P0IC301A040 40 N0SPI0MODE0 SPI_MODE0 41 P0IC301A041 PA28 PA29 P0IC301A042 42 N0SPI0MODE1 SPI_MODE1 N0VID0CABLE01 VID_CABLE_1 PB07 P0IC301A043 43 N0IR0EYE IR_EYE 44 P0IC301A044 PA20 N0AMP0SHDN* AMP_SHDN* N0UART0KLEER0TO0UC UART_KLEER_TO_UC N0VID0CABLE00 VID_CABLE_0 N0VID0CABLE01 VID_CABLE_1 P0USB0PWR0FAULT* USB_PWR_FAULT* P0R31902 P0R32202 N0CHARGE0DISABLE CHARGE_DISABLE PA14 N0BATT0PWR0PRESENT* BATT_PWR_PRESENT* NO1 SPUJ190900 P0SW301A0NO1 P0R32201 NO2 SPUJ190900 P0SW301B0NO2 35 P0IC301A034 PA11 P0R30202 P301 C1 P0SW301A0C1 45 60 P0IC301A060 PA25 R321 47K 0W063 0603 P0P3010TP P0R32102 P0R32101 C2 P0SW301B0C2 P0IC301A045 HOST_SPI_DATA_IN N0HOST0SPI0CS* HOST_SPI_CS* P0IC301A035 +3V14(STBY) SW301A P0SW301A0NC1 NC1 PA21 N0ATMEL0/OE ATMEL_/OE 46 P0IC301A046 PA22 N0UART0UC0TO0KLEER UART_UC_TO_KLEER 47 P0IC301A047 PA23 PB09 P0IC301A055 57 P0IC301A057 PB10 PA15 N0USB0D+0UC USB_D+_UC N0UC0TO0IPOD0RS232 UC_TO_IPOD_RS232 N0SPI0MODE0 SPI_MODE0 N0SPI0MODE1 SPI_MODE1 36 P0IC301A036 P0IR0EYE P0VID0CABLE00 VID_CABLE_0 P0VID0CABLE01 VID_CABLE_1 IC301A AT32UC3B0256-A2UT 59 P0IC301A059 PA24 +5V(USB)_STICK SW301B P0SW301B0NC2 NC2 IR_EYE N0UART0KLEER0TO0UC UART_KLEER_TO_UC R302 0R0 0W063 0603 NF GND SDTA-620-N P0UART0KLEER0TO0UC UART_KLEER_TO_UC PA16 N0PROGRAM0SW PROGRAM_SW P302 P0P3020TP N0VOL0DAT VOL_DAT N0VOL0CLK VOL_CLK 58 P0IC301A058 PB11 N0HOST0SPI0DATA0IN N0IPOD0TO0UC0RS232 IPOD_TO_UC_RS232 P0IPOD0TO0UC0RS232 IPOD_TO_UC_RS232 N0UC0TO0IPOD0RS232 UC_TO_IPOD_RS232 P0R30201 P0SW3000SCR N0VOL0CLK VOL_CLK 11 P0IC300011 VSS P0R30301 P0R30302 2 54 I2C_SCL P0IC301A054 12 N0I2C0SCL +3V14(STBY) P0SW30002 HARWIN M20-973 HARWIN M20-973 PB08 N0I2C0SDA I2C_SDA N0VOL0DAT VOL_DAT 13 GND 1 HARWIN M20-973 GND 55 P0IC300013 SCL/SPI_SIMO P0SW30001 CON301 P0CON30101 1 P0CON30102 2 P356 P0P3560TPP0P3570TP P357 N0IPOD0TO0UC0RS232 IPOD_TO_UC_RS232 /RES P0IC300012 NF SW300 GND 18P 50V 0603 P0IC30004 SDA/SPI_SOMI R303 47K 0W063 P329 0603 P0P3290TP 12MHz CON300 P0CON30001 N0DSP0I2C0SCL 1 DSP_I2C_SCL P0CON30002 N0DSP0I2C0SDA 2 DSP_I2C_SDA +3V14(STBY) P0C30102 P0R31601 P0R30101 R301 2K2 0W063 0603 P0X30002 P0C30101 P0R31602 MODE1/SPI_nSS R300 2K2 0W063 0603 C301 P0C30002 P0X30001 18P 50V 0603 +3V14(STBY) P0R30002 P0IC30005 N0AUTH0RST* AUTH_RST* 4 P0IC30002 VCC 2 X300 P0C30001 P0R30001 100N 16V 5 IC CPU Apple authentication IC WWI QFN package IC300 +3V14(STBY) MFI341S2164 P0IC300014 14 MODE0/SPI_CLK P0C30202 P0R30102 P0C30201 C300 C309 10N 50V 0603 GND C310 100N 16V 0603 GND GND DRAWING TITLE SoundCube - Micro ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR Filename: L182_1.0 SoundCube Micro.SchDoc Notes: 10_E136 PK 09/09/11 Add test points 1.0 10_E074 PK 30/03/10 None to this sheet C.0 10_E001 PK 05-01-10 12MHz crystal, authentication IC package change Program line pulled high, dbug header changed B.0 PK 08-07-09 09_E142 Contact Engineer: Mark Tweedale [email protected] ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: DATE 28/09/2010 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE Sheet 3 of 7 A2 DRAWING NO. L182CT GND 15 RESETB SCLK P0IC40107 SDIN/HWMODE P0IC40108 SDOUT/GPO7 P0IC40109 CSB/GPO2 XIN P0IC40104 P0X40002 DGND P0IC401028 28 R407 10K 0W063 0603 14 P0IC401014 XOP Crystal is option if needed. VCC 4 P0IC402B04 GND N0TWEET0L TWEET_L P411 P0P4110TP N0TWEET0R TWEET_R P412 P0P4120TP 19 18 C425 100N 16V SM0603 +3V14(A) P0C41801 10V 53 AVDD_PLL P0IC400A054 54 PLL_LF P0IC400A055 55 AGND_PLL GND P0IC400A053 P436 P0P4360TP ADAV4601BSTZ 59 P0IC400B059 AVDD_HP 71 P0IC400B071 P0IC400B068 AVDD_DAC DVDD AVDD_DAC 68 51 P0IC400B051 40 P0IC400B040 DVDD 31 P0IC400B031 DVDD 21 P0IC400B021 DVDD 14 P0IC400B014 29 GND IC400B ADAV4601BSTZ +1V8(D) AGND_HP P0IC400B070 AGND_DAC P0IC400B056 P0C44401 50V 56 70 P0IC400B069 AGND_DAC DGND P0C44301 50V P0C44501 50V P0R40802 P0P4370TP R408 2K0 0W063 SM0603 GND C420 P0C42002 100N P437 P0R40801 GND 69 1N0 P0C42902 SM0603 P0IC400B052 C429 P0C42901 50V C428 100N 16V SM0603 52 C427 1N0 50V SM0603 DGND 100N P0C42602 SM0603 C418 P0C41802 10uF P0C43401 P0IC400B041 +3V14(A) GND GND C409 P0C40902 1N0 C434 P0C43402 1N0 C443 P0C44302 1N0 C444 P0C44402 1N0 C445 P0C44502 1N0 GND GND +3V14 24LC512 +3V14(A) L400 P416 P0L40001 P0L40002 P0P4160TP 120R@100MHz GND IC403A 1P0IC403A01 A0 2P0IC403A02 A1 3P0IC403A03 A2 N0SPI0MODE0 SPI_MODE0 N0SPI0MODE1 SPI_MODE1 SPI_MODE0 P0SPI0MODE1 SPI_MODE1 P0SPI0MODE0 VDD suppliy for Kleer = 3.0V "Max", 3.6V "Abs Max" +3V14(RF) N0KLEER0SDATA0DIR KLEER_SDATA_DIR P438 36 35 34 33 P0P4380TP P439 TR400 MMUN2211LT1 P0R42302 P0C44801 P0C44802 P0C44701 P0C44702 P0C44601 P0C44602 P0C43102 P0C43101 P0C43202 P0C43201 P0R41201 P429 P0KLR30120RF KLR3012_RF IC405B P0IC40709 UART0_TX P0IC40708 UART0_RX 9 8 UART1_TX / IO_6 P0IC407018 UART1_RX / IO_7 N0UART00TX UART0_TX N0UART00RX UART0_RX P0IC407017 31 OSC_1 P0IC407030 30 OSC_2 P0IC407031 DCDC_CTRL / IO_8 P0IC407023 SPI_SS2 / IO_9 P0IC407024 ASSOC / IO_10 P0IC407022 SPI_MOSI / IO_11 P0IC407026 SPI_MISO / IO_12 P0IC407027 SPI_CLK / IO_13 UART0 - make available for KDT or production test on header +3V14(RF) CON401 1 P0CON40101 2 P0CON40102 P0CON40103 3 4 P0CON40104 P0X40102 GND P0X40104 GND X401 GND 22.576049MHz HARWIN M20-973 N0SPI0EN2 SPI_EN2 19 P0IC405B019 OE* P0HOST0SPI0CS* HOST_SPI_CS* P0HOST0SPI0DATA0OUT HOST_SPI_DATA_OUT P0HOST0SPI0CLK HOST_SPI_CLK P0HOST0SPI0DATA0IN HOST_SPI_DATA_IN N0HOST0SPI0CS* HOST_SPI_CS* N0HOST0SPI0DATA0OUT HOST_SPI_DATA_OUT N0HOST0SPI0CLK HOST_SPI_CLK P0IC405B03 3 Y0 P0IC405B05 5 Y1 P0IC405B07 7 Y2 P0IC405B09 9 Y3 17P0IC405B017 A0 15P0IC405B015 A1 13P0IC405B013 A2 11P0IC405B011 A3 N0HOST0SPI0DATA0IN HOST_SPI_DATA_IN P0IC407036 SPI_SS0 / IO_14 P0IC407035 LED_1 / IO_15 P0IC407034 KEYS_IN / IO_16 P0IC407033 KEYS_OUT / IO_17 P455 P0P4550TP 10 NCP0IC407029 29 NC GND +3V14(RF) P430 P0P4300TP GND N0SPI0EN1 SPI_EN1 IC408A 1 P0IC408A01 OE* 32 N0RECEIVE0E20DOUT RECEIVE_E2_DOUT 18 Y0 P0IC408A016 16 Y1 P0IC408A014 14 Y2 P0IC408A012 12 Y3 P0IC408A018 2P0IC408A02 A0 4P0IC408A04 A1 6P0IC408A06 A2 8P0IC408A08 A3 Interquip - ensure Kleer databases are configured correctly P0IC407032 LPF 74LVC244APW 40 IC408B GND TEST pin must be tied low N0SPI0EN3 SPI_EN3 19 P0IC408B019 OE* P0IC408B03 3 Y0 P0IC408B05 5 Y1 P0IC408B07 7 Y2 P0IC408B09 9 Y3 17P0IC408B017 A0 15P0IC408B015 A1 13P0IC408B013 A2 11P0IC408B011 A3 R419 10K 0W063 IC409A P0IC409A01 2P0IC409A02 1 Q /S P0IC409A07 5P0IC409A05 7 D /HOLD P0IC409A03 6P0IC409A06 3 C /W P453 P466 P0P4660TP P454 P0P4540TP P0P4530TP P0IC407040 TEST RECIEVE E2PROM 74LVC244APW P0IC407025 P0IC407010 R416 10K 0W063 P0R41901 P0IC407015 P0R41202 74LVC244APW P0P4290TP +3V14(RF) M95512-RDW6TP P0R41902 LDO_OUT 21 P0R41601 2P0IC405A02 A0 4P0IC405A04 A1 6P0IC405A06 A2 8P0IC405A08 A3 IC406A P0IC406A01 2P0IC406A02 1 Q /S P0IC406A07 5P0IC406A05 7 D /HOLD P0IC406A03 6P0IC406A06 3 C /W P446 P0P4460TP P448 P0P4480TP P449 P0P4490TP P0R41602 28 P0IC407028 VDD_XTAL 20 P0IC407020 TWI_CLK / IO_4 P0IC407016 TWI_DATA / IO_5 P0IC407021 18 Y0 P0IC405A016 16 Y1 P0IC405A014 14 Y2 P0IC405A012 12 Y3 P0IC405A018 R412 10K 0W063 +3V14(RF) M95512-RDW6TP R421 10K 0W063 TRANSMIT E2PROM GND 74LVC244APW R423 47K 0W063 0603 P431 TR401 MMUN2211LT1 N0TRANSMIT0E20DOUT TRANSMIT_E2_DOUT P0P4310TP GND P0TR4010B P0TR4010E N0KLEER0RESET KLEER_RESET IC405A 1 P0IC405A01 OE* P0IC407012 +3V14(RF) P0P4390TP ANT N0KLR30120RF KLR3012_RF SPI_MODE KLEER > RECIEVE E2PROM KLEER > TRANSMIT E2PROM HOST > RECIEVE E2PROM HOST > TRANSMIT E2PROM +3V14(RF) P0R42101 N0SPI0SLAVE0SEL00 SPI_SLAVE_SEL_0 N0DIV0CTRL DIV_CTRL N0RX0EN RX_EN N0TX0EN TX_EN N0SPI0DATA0KLEER0IN SPI_DATA_KLEER_IN 3 P0X40101 22 23 24 MCLK DAI_BCLK P0IC407013 DAI_FS P0IC407014 DAI_DATA P0IC407011 7 P0IC40707 RESET RESET* input cannot be driven high by host Pin must by Hi-Z or pulled low only. Kleer has internal pull-up. P0KLEER0RESET KLEER_RESET 74HC138D N0SPI0SLAVE0SEL00 SPI_SLAVE_SEL_0 P426 P0P4260TP N0SPI0DATA0KLEER0OUT SPI_DATA_KLEER_OUT P427 P0P4270TP N0SPI0CLK0KLEER0OUT SPI_CLK_KLEER_OUT P428 P0P4280TP P0X40103 17 18 25 26 27 P0TR4000B P0TR4000E 15 16 N0SPI0DATA0KLEER0OUT SPI_DATA_KLEER_OUT N0SPI0DATA0KLEER0IN SPI_DATA_KLEER_IN N0SPI0CLK0KLEER0OUT SPI_CLK_KLEER_OUT P0R42301 R422 47K 0W063 SM0603 A1 : A0 00 01 10 11 N0SPI0EN0 SPI_EN0 N0SPI0EN1 SPI_EN1 N0SPI0EN2 SPI_EN2 N0SPI0EN3 SPI_EN3 GND IC407 Kleer KLR3012 P0IC40703 GNDPAD_1 GNDPAD_2 P0R42002 N0KLEER0DATA0DIR0IN* KLEER_DATA_DIR_IN* 4 P0IC404B04 P0R42201 P0TR4000C P0R42202 P402 P0P4020TP P403 P0P4030TP P404 P0P4040TP P452 100R 0W063 SM0603 +3V14(RF) N0UART0KLEER0TO0UC UART_KLEER_TO_UC N0UART0UC0TO0KLEER UART_UC_TO_KLEER R420 P0DIV0CTRL DIV_CTRL P0RX0EN RX_EN P0TX0EN TX_EN C448 1N0 50V P0IC407045 6 P0IC404B06 P0P4520TP P0R42001 P400 P0P4000TP P401 P0P4010TP 11 12 13 14 P0IC407044 5 P0IC404B05 N0TWI0CLK TWI_CLK N0TWI0DATA TWI_DATA P0UART0KLEER0TO0UC UART_KLEER_TO_UC P0UART0UC0TO0KLEER UART_UC_TO_KLEER IC404B N0SDATA0DSP0OUT SDATA_DSP_OUT P445 P0R41502 47K 0W063 GND SM0603 P464 N0SCLK0KLEER SCLK_KLEER R431P0R43101 100R P0R43102 P0P4640TP N0LRCLK0KLEER LRCLK_KLEER 0W063 SM0603 R432P0R43201 100R P465 P0R43202 P0P4650TP N0SDATA0KLEER SDATA_KLEER 0W063 SM0603 P0P4350TP P435 100R 0W063 SM0603 74HC125D C447 1N0 50V 44 45 IC404A 74HC125D P0R41802 C446 1N0 50V P0P4450TP VDD_D2 13 P463 P0R41801 C431 100N 16V 0402 X7R N0SPI0EN0 SPI_EN0 1 P0IC40701 GND 2 P0IC40702 GND 4 P0IC40704 GND 5 P0IC40705 GND 37 P0IC407037 GND 38 P0IC407038 GND 39 P0IC407039 GND 41 P0IC407041 GND 42 P0IC407042 GND 43 P0IC407043 GND 100R P451 0W063 SM0603 P0P4630TP P0R41501 P0TR4010C P0R41702 P0P4510TP R418 2 P0IC404A02 100R P0R41402 SM0603 R415 P450 P0P4500TP 1 3 P0IC404A03 R414P0R41401 0W063 19 P415 74HC125D P0IC404A01 100R P447 0W063 SM0603 P0IC404D013 P0R41301 C432 100N 16V 0402 X7R GND N0MCLK0KLEER02 MCLK_KLEER_2 P0P4150TP P0IC407019 12 P0IC404D012 6 11 P0IC404D011 P0R41302 P0P4470TP C433 1UF 6.3V 0402 X5R P422 P423 P0P4230TP P424 P0P4240TP P425 P0P4250TP P0P4220TP GND VDD_A R413 P0R41102 0R0 GND 0W063 SM0603 IC404D N0MCLK0KLEER0TO0DSP MCLK_KLEER_TO_DSP P413 C430 100N 16V 0402 X7R VDD_D1 R411 P0R41101 100R SM0603 P0R41002 P0P4610TP 0R0 0W062 P0IC40706 100R P444 IC404C 0W063 74HC125D SM0603 R410P0R41001 0W063 P461 P0R43502 P0C43302 N0MCLK0KLEER01 MCLK_KLEER_1 P0P4130TP P0C43001 9 P0IC404C09 P0C43002 10 8 P0IC404C08 P0R40902 P0P4440TP P0R40901 R435 P0R43501 15 Y0 P0IC403A014 14 Y1 P0IC403A013 13 Y2 P0IC403A012 12 Y3 P0IC403A011 11 Y4 P0IC403A010 10 Y5 P0IC403A09 9 Y6 P0IC403A07 7 Y7 P0IC403A015 4 P0IC403A04 E1 5 P0IC403A05 E2 6P0IC403A06 E3 +3V14A(RF) P0C43301 +3V14(RF) P0IC404C010 R409 N0MCLK0KLEER0TO0SPDIF MCLK_KLEER_TO_SPDIF GND 10 P0IC405C010 GND 14 VCC N0TWI0CLK TWI_CLK N0TWI0DATA TWI_DATA 7 P0IC404E07 GND 74HC125D SO-14 GND GND C440 100N 16V GND GND P0C43902 C438 100N 16V IC404E P0IC404E014 +3V14(RF) IC403B 16 P0IC403B016 VCC GND 8 P0IC403B08 GND P0C43901 P0C43802 +3V14(RF) IC405C 20 P0IC405C020 VCC P0C43801 10 P0IC408C010 GND C437 100N 16V 74LVC244APW P0C43702 +3V14(RF) IC408C 20 P0IC408C020 VCC P0C43701 4 P0IC409B04 GND C436 100N 16V 74LVC244APW P0C43602 +3V14(RF) IC409B 8 P0IC409B08 VCC P0C43601 P0C43502 4 P0IC406B04 GND C435 100N 16V M95512-RDW6TP +3V14(RF) P0C44002 R434 82K 0W062 0402 P0C44001 P0R43401 R433 82K 0W062 0402 P0R43402 P0R43301 +3V14(RF) +3V14(RF) IC406B 8 P0IC406B08 VCC P0C43501 M95512-RDW6TP GND P0R43302 P0KLEER0SDATA0DIR KLEER_SDATA_DIR C414 P0C41402 100N GND GND Sets base address to: 0111010x x: 0=read / 1=write Pin 7 - SDIN/HWMODE needs to be pulled up during device reset to put the device into software control mode on un-reset. However the I2C_SDA line already has a pullup elsewhere (by IC300) so one is not needed here. R417 N0SDATA0DSP0IN SDATA_DSP_IN P0R41701 P0C41401 C412 P0C41202 100N 50V GND GND 16V 41 +3V14(A) C426 P0C42601 16V BCLK0 / SPDIF_IN2 P0IC400A026 LRCLK0 / SPDIF_IN1 BCLK2 / SPDIF_IN6 P0IC400A018 LRCLK2 / SPDIF_IN5 C413 P0C41302 100N P0C41201 P0C40901 DGND GND P0IC400A027 P0IC400A019 16V C406 P0C40602 10uF 50V 32 C423 10UF 50V DGND PWM_READY C424 100N 16V SM0603 P0IC400B020 P0IC400A042 5 P0IC400B05 NC 6 P0IC400B06 NC 7 P0IC400B07 NC 8 P0IC400B08 NC 9 P0IC400B09 NC 10P0IC400B010 NC 11P0IC400B011 NC 12P0IC400B012 NC 60P0IC400B060 NC 61P0IC400B061 NC 66P0IC400B066 NC 74P0IC400B074 NC 75P0IC400B075 NC 76P0IC400B076 NC 77P0IC400B077 NC DVDD 67 39 C411 P0C41102 100N P0C40601 P0C42001 P0IC400A067 P0IC400A039 10V C401 P0C40102 10uF 16V 20 SDIN0 SDIN1 P0IC400A024 SDIN2 P0IC400A025 SDIN3 / SPDIF_IN0 P0IC400A023 C405 P0C40502 100N P0C40101 GND P0IC400A057 57 HPOUT1L P0IC400A058 58 HPOUT1R 42 PWM1A P0IC400A043 43 PWM1B P0IC400A044 44 PWM2A P0IC400A045 45 PWM2B P0IC400A046 46 PWM3A P0IC400A047 47 PWM3B P0IC400A048 48 PWM4A P0IC400A049 49 PWM4B 16V DGND P0IC400A022 16V 10V C417 P0C41702 100N GND P0C41701 C419 P0C41902 100N P0C41901 P0IC400B013 MCLKI / XIN XOUT P0IC400A034 Output has dc bias P0TWEET0L TWEET_L P0TWEET0R TWEET_R C400 P0C40002 10uF C415 P0C41502 100N P0C41501 16V 13 27 26 P0IC400A033 10V 64 65 P0IC400A030 MCLK_OUT +3V14(A) C416 P0C41602 10uF P0C41601 P0IC400B029 AUXOUT4L P0IC400A065 AUXOUT4R P0WOOF0L WOOF_L P0WOOF0R WOOF_R P0P4100TP ODVDD 50 RESET 16 P0IC400A016 SDA 17 P0IC400A017 SCL 22 23 24 25 P418 P0P4180TP IC402B 8 MUTE P0IC400A050 33 34 +3V14 P0IC402B08 P0IC400A015 P409 P410 P0P4090TP ODGND P414 P0P4140TP N0SCLK0SPDIF SCLK_SPDIF N0LRCLK0SPDIF LRCLK_SPDIF GND 15 GND N0SDATA0DSP0IN SDATA_DSP_IN NF X400 NF 11.2896MHz HC-49 SM NF C422 15P P0P4400TP P0C42201 P0C42202 50V SM0603 P440 P0IC400A062 62 AUXOUT3L P0IC400A063 63 AUXOUT3R P0IC400A064 30 N0MCLK0KLEER0TO0DSP MCLK_KLEER_TO_DSP 15P P0C42102 SM0603 N0WOOF0L WOOF_L N0WOOF0R WOOF_R FILTD 24LC512 C421 P0C42101 50V P0IC400A072 72 AUXOUT1L P0IC400A073 73 AUXOUT1R P0IC400B028 1 P0IC40101 DVDD+ 11 PVDD+ P0IC401011 P0IC401015 P0IC401010 AUXIN1R P0C41301 16V P0R42102 GND GPO0/SWIFMODE GPO1 PGND R406 10K 0W063 0603 +3V14 P0IC401017 17 DIN P0IC401016 16 DOUT P0IC40106 10 4 7 8 9 GND GND P0IC40105 P0IC401012 P0R40701 P0P4430TP P443 P0R40702 P0R40601 I2C_SDA - Hi sets S/W mode (pulled high elsewhere) P0R40602 P0SPDIF0RST* SPDIF_RST* I2C_SCL P0I2C0SCL I2C_SDA P0I2C0SDA N0SPDIF0RST* SPDIF_RST* N0I2C0SCL I2C_SCL N0I2C0SDA I2C_SDA IC402A P0IC402A05 3P0IC402A03 5 A2 SDAP0IC402A06 2P0IC402A02 6 A1 SCL 1P0IC402A01 A0 P0IC402A07 7 WP P0IC400A079 80 P0IC400A080 ISET +3V14 P462 R426P0R42601 47K P0R42602 P0P4620TP 0W063 0603 0603 N0DSP0RES0SS* R403 0R0 DSP_RES_SS* P0R40301 P0R40302 N0DSP0I2C0SDA0SS R404 0R0 DSP_I2C_SDA_SS P0R40401 P0R40402 N0DSP0I2C0SCL0SS R405 0R0 DSP_I2C_SCL_SS P0R40501 P0R40502 P0IC401020 20 P405 NC - MCLK not required P0P4050TP MCLK P0IC401019 N0LRCLK0SPDIF 19 P459 100R LRCLK_SPDIF P417 P0P4590TP P0R42901 P0R42902 P0P4170TP LRCLK R429 P0IC40101818 N0SCLK0SPDIF 0603 SCLK_SPDIF P419 P0P4190TP BCLK P460 100R P0P4600TP P0R43001 R430 P0R43002 P0IC401021 21 0603 TX0 P421 P0IC401013 13 N0MCLK0KLEER0TO0SPDIF R402 0R0 MCLK_KLEER_TO_SPDIF P0P4200TP P0R40201 P0R40202 P0P4210TP CLKOUT 0W063 SM0603 P420 12 P442 P0P4420TP IC401 WM8805GEDS SSOP-28 GND 79 AUXIN1L P0C41101 28 5 6 GND 100N 16V SM0603 3 P0IC40103 RX0 2 P0IC40102 RX1 27 P0IC401027 RX2 26 P0IC401026 RX3 25 P0IC401025 RX4/GPO3 24 P0IC401024 RX5/GPO4 23 P0IC401023 RX6/GPO5 22 P0IC401022 RX7/GPO6 Lo sets 2-wire (I2C) mode P0C44202 P0IC400A078 P0C40501 38 SPDIF_OUT / SDO1 78 16V 4 P0C44201 1uF 25V 1206 DSP_RES* P0DSP0I2C0SDA DSP_I2C_SDA P0DSP0I2C0SCL DSP_I2C_SCL P0DSP0RES* P0X40001 GND P0C44101 DSP_RES* N0DSP0I2C0SDA DSP_I2C_SDA N0DSP0I2C0SCL DSP_I2C_SCL N0DSP0RES* P0C42501 P0C44102 N0IPOD0AUX0R IPOD_AUX_R 10K 0603 P456 10K P0R42402 P0P4570TP 0603 P457 20K P0R42502 P0P4580TP 0603 P458 P0R40102 P0P4560TP C410 P0C41002 100N P0IC400B04 AVDD_ADC C442 R401P0R40101 0W063 R424P0R42401 0W063 R425P0R42501 0W063 16V P0IC400B03 AGND_ADC +3V14(STBY) C441 N0IPOD0AUX0L IPOD_AUX_L P0IPOD0AUX0L IPOD_AUX_L Input has dc bias P0IPOD0AUX0R IPOD_AUX_R P0C42502 +3V14(STBY) GND +3V14 C404 P0C40402 10uF 3 VREF P0C41001 16V P0C42801 P0IC400A02 SDO0 / AD0 P0IC400A035 BCLK1 / SPDIF_IN4 P0IC400A036 LRCLK1 / SPDIF_IN3 10V P0C42802 FILTA P0C42701 2 GND P0IC400A037 P0IC400A01 N0SDATA0DSP0OUT SDATA_DSP_OUT P0C42702 1 P406 R400P0R40001 100R P0P4060TP P0R40002 0W063 SM0603 37 P0P4410TP P441 N0SCLK0KLEER 35 SCLK_KLEER P407 P0P4070TP N0LRCLK0KLEER 36 LRCLK_KLEER P408 P0P4080TP P0C40401 P0IC400B032 IC400A P0C42301 C408 100N 16V SM0603 P0C42302 C407 47UF 35V DVDD: 1.8V with 10u and 100nF decoupling to DGND P0C42401 P0C40702 GND P0C40801 10V P0IC400A038 Harting 10W IDC +3V14(A) P0C40001 P0C42402 N0DSP0RES0SS* DSP_RES_SS* C403 100N 16V SM0603 P0C40802 N0DSP0I2C0SDA0SS DSP_I2C_SDA_SS +1V8(D) AVDD: 3V3 with 10u and 100nF decoupling to AGND P0C40701 C402 47UF 35V P0C40302 N0DSP0I2C0SCL0SS DSP_I2C_SCL_SS P0C40301 P0C40201 Sigma studio header SPDIF receiver needs to be on +3V14(STBY) supply because it shares an I2C control bus with other parts on +3V14(STBY) - namely the display board. Hold SPDIF receiver in reset when in standby to minimise current draw. P432 1 2 P0CON40003 P433 3 P0P4330TP P0CON40004 4 P0CON40005 5 P0CON40006 P434 6 P0P4340TP P0CON40007 7 P0CON40008 8 P0CON40009 9 P0CON400010 10 P0CON40001P0P4320TP P0CON40002 P0C40202 NF CON400 C439 100N 16V 74HC138D GND DRAWING TITLE SoundCube - Kleer + DSP ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR Filename: L182_1.0 SoundCube kleer + DSP.SchDoc Notes: 10_E136 PK 09/09/11 Add test points 1.0 10_E074 PK 30/03/10 None to this sheet C.0 10_E001 PK 05-01-10 SPDIF input to 8805 / DSP removed B.0 PK 08-07-09 09_E142 Contact Engineer: Mark Tweedale [email protected] ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: DATE 28/09/2010 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE Sheet 4 of 7 A2 DRAWING NO. L182CT P0C50101 P0C50102 P0C50701 WOOF_VOL_L C350 10P 50V P0C35101 N0WOOF0VOL0L P0R56602 P0C35102 P0C35001 C349 47P 50V P0C35002 P0C34801 P0C34802 5 P0IC50205 VEE C348 10P 50V P0C34901 C351 47P 50V GND P0C52702 C360 10P 50V P0C36102 P0C36002 C527 100N 16V P0C36001 P0C52701 C355 47P 50V P0C36101 7 VCCP0IC50207 AGND1 AGND2 P0IC50206 AGND3 P0IC50204 P0IC50202 2 4 6 R566 47R 0603 0W063 P0R56601 WOOF_VOL_R N0WOOF0VOL0R P0R56402 GND GND C361 47P 50V -5V GND C534 P554 P0C53401 GND P549 100N 50V P0P5490TP P570 P571 P0C57401 P0C57301 13 8 CPVDD C1N P0IC50604848 OUTR+ P0IC50604747 OUTR+ N0TWEET0OUT0R+ TWEET_OUT_R+ P0IC50604646 OUTRP0IC50604545 OUTR- N0TWEET0OUT0R0 TWEET_OUT_R- SYNCIN P0IC506013 P0IC506032 TEMP 18 P0IC506018 MONO 28P0IC506028 G1 29P0IC506029 G2 N0AMP0SHDN* AMP_SHDN* 30 P0IC506030 SHDN N0AMP0MUTE* AMP_MUTE* 31 P0IC506031 MUTE 24P0IC506024 SS P565 GND C552 10N 50V 0603 CON500 8 7 P0CON50007 6 P0CON50006 5 P0CON50005 4 P0CON50004 3 P0CON50003 2 P0CON50002 1 P0CON50001 70R@100MHz P0L50002 70R@100MHz P0L50101 70R@100MHz P0L50202 70R@100MHz P0L50301 70R@100MHz P0L50402 70R@100MHz P0L50501 70R@100MHz P0L50602 70R@100MHz P568 P0P5680TP C553 10N 50V 0603 GND P0C58202 P0C58102 P0C58002 P0C57902 P0C57802 P0C57702 P0C57502 PGND_RW P0C56101 P0C56701 C560 47UF 35V C567 100N 50V C561 47UF 35V P0C56102 1N0 50V C566 100N 50V P0C56702 JST XH (HORIZONTAL) P0C56602 P0C58101 P0C58001 P0C57901 C575 C576 C577 C578 C579 C580 C581 C582 1 pair per bank of three VDD pins P0C56001 P0C56601 +19V_AMP_T P0L50701 +3V14 11 P0CON50008 P0C57501 P0L50702 P0C55302 PGND_T L500 P0L50001 L501 P0L50102 L502 P0L50201 L503 P0L50302 L504 P0L50401 L505 P0L50502 L506 P0L50601 L507 N0AMP0TEMP* AMP_TEMP* 19P0IC506019 REG 20P0IC506020 REG 21P0IC506021 REG 57 P0IC506057 EP P0IC506022 P0IC506023 P0C55301 P567 P0P5670TP 22 23 2 3 4 39 40 41 49 50 GND AGND AGND P0C55102 P0P5650TP C551 470N 50V 32 P0IC50601 1 NC P0IC506012 12 NC P0IC506042 42 NC P0IC506043 43 NC P0IC506044 44 NC P0IC506055 55 NC P0IC506056 56 NC PGND PGND P0IC50604 PGND P0IC506039 PGND P0IC506040 PGND P0IC506041 PGND P0IC506049 PGND P0IC506050 PGND P0C55101 P0IC506011 SYNCOUT 33 P0IC506033 TH2 34 P0IC506034 TH1 35 P0IC506035 TH0 PGND_T +5VA Thermal trigger = 100degC P0P5110TP N0TWEET0OUT0L0 TWEET_OUT_L- 15 P0IC506015 FS1 11 P504 P0P5040TP P505 P0P5050TP P506 P0P5060TP P507 P0P5070TP P508 P0P5080TP P509 P0P5090TP P510 P0P5100TP P511 P0IC506052 52 OUTLP0IC506051 51 OUTL- 14 P0IC506014 FS2 N0AMP0TEMP* AMP_TEMP* N0WOOF0OUT0L+ WOOF_OUT_L+ N0WOOF0OUT0L0 WOOF_OUT_LN0WOOF0OUT0R+ WOOF_OUT_R+ N0WOOF0OUT0R0 WOOF_OUT_RN0TWEET0OUT0R0 TWEET_OUT_RN0TWEET0OUT0R+ TWEET_OUT_R+ N0TWEET0OUT0L0 TWEET_OUT_LN0TWEET0OUT0L+ TWEET_OUT_L+ P0IC50608 9 P0IC50609 10 P0IC506010 C1P 25 P0IC506025 VDD_A P0C52401 P0C52402 P0C50601 5 VDDP0IC50605 P0IC506066 VDD P0IC506077 VDD 36 P0IC506036 VDD 37 P0IC506037 VDD 38 P0IC506038 VDD P0C54802 P0P5620TP N0TWEET0OUT0L+ TWEET_OUT_L+ INR+ 26 P0IC506026 INR- IC506 MAX9709ETN+ P0IC50605454 OUTL+ P0IC50605353 OUTL+ P0IC506027 P0IC50603 32 PGND_RW N0AMP0TEMP* AMP_TEMP* P562 INL+ P0IC506017 16 P0IC506016 INL27 C574 47P P0C54801 50V C548 19P0IC505019 REG 20P0IC505020 REG 21P0IC505021 REG P0C55201 57 P0IC505057 EP AGND AGND P0IC505023 P0IC505022 22 23 P0C55202 P0C55901 P0C55902 P0C56501 C559 47UF 35V PGND_T GND R559 10K 0W063 0603 P0P5120TP P512 DRAWING TITLE SoundCube - DAC filters + amplifers R560 P0R56002 10K 0W063 0603 N0AMP0TEMP0COM* AMP_TEMP_COM* P0R56001 P0C56802 P519 P0SP5010STARPAD4 P0SP5010STARPAD3 P0P5190TP C565 100N 50V GND P0C56801 P518 P0P5180TP PGND_LW P0R55901 P517 P0SP5010STARPAD1 P0SP5010STARPAD2 P0P5170TP C558 47UF 35V P0R55902 SP501 PGND C564 100N 50V 1 pair per bank of three VDD pins P0C56502 P0C56401 C557 1000UF 35V RX PGND_T +19V_AMP_RW P0C56402 P0C55701 +19V_AMP_T P0C55801 P0SP5000STARPAD4 P0SP5000STARPAD3 P0P5160TP +19V_AMP +19V_AMP_RW P0C55802 P516 P0C54202 P0P5580TP N0AMP0SYNC AMP_SYNC P0IC50501 1 NC P0IC505012 12 NC P0IC505042 42 NC P0IC505043 43 NC P0IC505044 44 NC P0IC505055 55 NC P0IC505056 56 NC PGND_RW P515 P0C50602 8 P0IC505011 SYNCOUT GND SP500 P558 1uF 25V X7R 1206 PGND_T 24P0IC505024 SS P564 GND P0SP5000STARPAD1 P0SP5000STARPAD2 P0P5150TP C1N P0IC505032 TEMP P0C55002 P0P5640TP C550 470N 50V P514 C573 10P 50V 17 +5VA PGND PGND P0IC50504 PGND P0IC505039 PGND P0IC505040 PGND P0IC505041 PGND P0IC505049 PGND P0IC505050 PGND P0C55001 P0P5140TP GND P559 P0P5590TP GND SYNCIN 33 P0IC505033 TH2 34 P0IC505034 TH1 35 P0IC505035 TH0 PGND_RW +5VA Thermal trigger = 100degC +19V_AMP_LW P0P5270TP P527 P0IC505013 18 P0IC505018 MONO 28P0IC505028 G1 29P0IC505029 G2 N0AMP0SHDN* AMP_SHDN* 30 P0IC505030 SHDN N0AMP0MUTE* AMP_MUTE* 31 P0IC505031 MUTE R555 10K 0W063 0603 N0TWEET0VOL0R TWEET_VOL_R P0IC50504646 OUTRP0IC50504545 OUTR- P0IC50503 P513 P0P5130TP N0WOOF0OUT0R0 WOOF_OUT_R- P0IC505048 48 OUTR+ P0IC505047 47 OUTR+ 15 P0IC505015 FS1 PGND_RW P0IC50505252 OUTLP0IC50505151 OUTL- 1uF 25V X7R 1206 C545 P0C54501 P0C54502 14 P0IC505014 FS2 N0AMP0TEMP* AMP_TEMP* N0AMP0SYNC AMP_SYNC N0WOOF0OUT0R+ WOOF_OUT_R+ C524 47P 50V C542 P0C54201 P0IC50602 13 P0IC50508 9 P0IC50509 10 P0IC505010 CPVDD C1P 25 P0IC505025 VDD_A INR+ P0IC505027 P0IC50505454 OUTL+ P0IC50505353 OUTL+ C506 10P 50V P556 P0P5560TP P0C58201 1uF 1206 25V X7R N0AMP0SYNC AMP_SYNC P0P5240TP P524 26 P0IC505026 INR- P0C54702 P0P5610TP N0TWEET0VOL0L TWEET_VOL_L 1uF 25V X7R 1206 C541 P0C54101 P0C54102 P0C57402 P561 C547 P0C54701 GND 27 IC505 MAX9709ETN+ P0C57302 C572 47P 50V C537 100N 50V P0P5710TP P0C57801 C571 10P 50V P555 P0P5550TP P0C53701 C536 100N 50V P0C53402 C540 1uF 25V 1206 P0C53702 P0R53002 P0P5520TP P0P5540TP 16 P0IC505016 INL- P0P5720TP P0IC50502 11 P523 P0C34902 P0C50702 P0C34301 DGND 11 P0IC502011 P0C35501 P0C35302 P0C35401 P0C35402 P0R51701 GND C359 47P 50V P0C54001 C539 1uF 25V 1206 P0P5480TP 2 3 4 39 40 41 49 50 19P0IC504019 REG 20P0IC504020 REG 21P0IC504021 REG P0C55401 P0C55402 P0C35902 P0C35802 C358 10P 50V C354 10P 50V 0R0 0805 P548 100N 50V P566 C554 10N 50V 0603 P0C35901 P0C35801 N0VOL0CLK VOL_CLK N0VOL0DAT VOL_DAT R517 0R0 0W063 0603 P0C35502 P0C34702 P0C35301 P0C35201 P0C35202 P0C35701 P0C35702 C357 47P 50V P0P5230TP GND P546 P0P5460TP P0C56002 P0C53302 P0P5660TP GND C556 47UF 35V P0C34701 P0C34601 P0C34602 P0C34501 P0C34401 P0R52501 P0R52502 P0C52601 P0C52602 GND C356 10P 50V P0C34302 P0C34202 P0R50901 P0C34201 P0C51102 P0C51701 P0C51901 P0C51902 P0R50902 8 4 P0C51101 P0IC503A08 P0IC503A04 P0R51101 P0C51401 P0C51501 P0C51502 P0C53101 P0C53102 P0P5420TP P0C57701 1206 X7R P0C57102 N0WOOF0OUT0L0 WOOF_OUT_L- 1uF 25V P0C54402 P0C57201 P526 P0C55702 P0C55601 57 P0IC504057 EP AGND P0IC504023 AGND P0IC504022 22 23 PGND PGND P0IC50404 PGND P0IC504039 PGND P0IC504040 PGND P0IC504041 PGND P0IC504049 PGND P0IC504050 PGND P0C55602 GND C353 47P 50V P0R53001 P572 C544 P0C54401 P0C57202 N0WOOF0VOL0R WOOF_VOL_R P0P5260TP P0C57101 N0WOOF0OUT0L+ WOOF_OUT_L+ P0R55501 32 P0IC50401 1 NC P0IC504012 12 NCP0IC504042 42 NCP0IC504043 43 NC P0IC504044 44 NC P0IC504055 55 NCP0IC504056 56 NC P0IC50403 P0IC50402 C563 100N 50V P542 C352 10P 50V P0C54002 P0R52902 P0P5510TP P0IC505055 VDDP0IC50506 6 VDDP0IC50507 7 VDD P0IC505036 36 VDD P0IC505037 37 VDD P0IC505038 38 VDD 8 IC504 MAX9709ETN+ C1N P0IC504011 SYNCOUT 2 3 4 39 40 41 49 50 P0C56301 P0C56302 P0C55501 P0C55502 P0C56201 PGND_LW P0IC50408 9 P0IC50409 10 P0IC504010 CPVDD C1P 25 P0IC504025 P0IC504032 TEMP 1 pair per bank of three VDD pins C555 47UF 35V C531 100P 50V C526 470P 50V NF R525 47K 0W063 P0P5700TP +5VA PGND_LW C562 100N 50V P0R51902 5K6 0W063 13 R564 P0R56401 Replace with ferrite bead? R530 P552 P569 SYNCIN GND +19V_AMP_LW 15K 0W063 6 P0IC503B06 P0C57601 P0C53501 GND P0IC504013 24P0IC504024 SS P563 GND R527 8K2 0W063 P0R52302 P0P5380TP P0P5210TP P0IC502013 OUT2 12 P0IC502012 SEL 8 P0IC50208 CL 9 P0IC50209 DA 10 P0IC502010 MUTE P0R51302 P521 14 P0IC502014 OUT1 (PVDD) +19V_AMP_T P0C53301 P0IC504046 46 OUTRP0IC504045 45 OUTR- P0C54902 P0P5630TP C549 470N 50V C530 680P 50V P0R52301 IC502 BD3812F-E2 GND P0R55502 P0C57001 P0C54901 P537 P0P5370TP 5 P0IC503B05 GND P0IC504048 48 OUTR+ P0IC504047 47 OUTR+ 33P0IC504033 TH2 34P0IC504034 TH1 35P0IC504035 TH0 PGND_LW +5VA Thermal trigger = 100degC 1K0 0W063 R523 P538 C341 47P 50V C535 100N 50V P0IC504052 52 OUTLP0IC504051 51 OUTL- 18 P0IC504018 MONO 28P0IC504028 G1 29P0IC504029 G2 N0AMP0SHDN* AMP_SHDN* 30 P0IC504030 SHDN N0AMP0MUTE* AMP_MUTE* 31 P0IC504031 MUTE PGND_LW R513 0R0 0W063 0603 -5V IC503B NJM2114M R519 P0IC503B07 7 P0R51901 GND C533 P0IC504054 54 OUTL+ P0IC504053 53 OUTL+ 15P0IC504015 FS1 C347 47P 50V GND P0C35601 -5V 14P0IC504014 FS2 +5VA 6K8 0W063 100UF 16V 17 P0IC505017 INL+ 26 P0IC504026 INR- 13 P0R52202 P0R52701 P0C52102 P0R52201 P0C53002 P0C33701 C337 47P 50V P553 P547 1uF 1206 25V X7R PGND_LW R522 P0C52101 P0R52702 P0WOOF0L WOOF_L P0P5530TP P0P5470TP VDD_A P0IC50405 5 VDDP0IC50406 6 VDDP0IC50407 7 VDD P0IC504036 36 VDD P0IC504037 37 VDD P0IC504038 38 VDD GND P0C54602 P0P5600TP C346 10P 50V P0R51502 P0P5360TP P0C57602 C538 1uF 25V 1206 27 P0IC504027 INR+ P560 C546 P0C54601 C345 47P 50V C507 100N 16V GND 3 P0IC50203 IN2 P0R51702 P0C33102 C521 N0WOOF0L WOOF_L P0C53001 P0C33702 P0C33602 P0C33601 P0C52301 P0C52302 C335 47P 50V C336 10P 50V 1 P0IC50201 IN1 P503 P536 P0R51501 GND C523 100N 16V P501 P0P5010TP P0R51301 R515 C343 47P 50V Address xxxx x11x GND GND C344 10P 50V C342 10P 50V P544 P0P5440TP GND GND NF R509 47K 0W063 GND 0R0 0805 16P0IC504016 INL- C570 47P 50V P0C57002 P0C56901 C569 10P 50V P0C56902 1uF 1206 25V X7R C517 100UF 16V C331 47P 50V P0R52901 P557 P0C56202 P525 C519 100N 16V C511 470P 50V P0C34402 P0C33101 P0C33001 P0C33002 P0C32901 P0C32902 P0C32801 P0C32802 5 P0IC50105 VEE C330 10P 50V P0C53602 P0C53202 100N 50V 17 P0IC504017 INL+ P0P5570TP P0R51102 7 P0IC50107 VCC AGND1 AGND2 P0IC50106 AGND3 P0IC50104 DGND P0IC501011 11 C329 47P 50V GND P0C33501 C334 10P 50V C328 10P 50V P0C53601 P0C53802 P0C53201 P0C54302 C515 100P 50V 5K6 0W063 GND P0P5030TP P0P5690TP C543 P0C54301 R511 15K 0W063 8K2 0W063 2 P0IC503A02 P0R50302 Replace with ferrite bead? R529 P551 C532 N0WOOF0VOL0L WOOF_VOL_L P0P5250TP P0R50702 P0P5350TP GND N0TWEET0VOL0L P0C53901 P0R52802 P0P5500TP 0R0 0805 GND P0C51402 TWEET_VOL_L C514 680P 50V P0R50701 P0C50302 P0C50301 P0C52201 P0C50402 P0C52202 P0P5220TP N0TWEET0VOL0R TWEET_VOL_R P0R56302 P0C53902 P0R52801 N0AMP0SHDN* AMP_SHDN* N0AMP0MUTE* AMP_MUTE* These two need pulldowns so that the default state of the amp is DISABLED. 6K8 0W063 P534 P0P5340TP R503 P0R50301 P0C34502 P0C32701 P0C33301 P0C33302 P0C33201 P522 47R 0603 47R P0R56502 0603 P0R50602 IC503A GND NJM2114M P0IC503A01 P531 1 P0P5310TP P0C35602 P0C34101 C340 10P 50V P0C34102 P0C34001 C339 47P 50V P0C34002 C338 10P 50V P0C33802 R563P0R56301 0W063 R565P0R56501 0W063 Replace with ferrite bead? R528 P550 GND P0C50902 P0R50601 +5VA (PVDD) +19V_AMP_RW P0C53502 P0R56201 P520 (PVDD) +19V_AMP_LW R562 4K7 0W063 0603 P0C53801 P0R56102 R561 4K7 0W063 0603 OUT2 R506 P0C50901 3 P0IC503A03 C501 100UF 16V GND P0C33901 P0C33801 P0VOL0CLK VOL_CLK P0VOL0DAT VOL_DAT GND P0R56101 P0AMP0MUTE* P0C33202 GND N0AMP0SHDN* AMP_SHDN* N0AMP0MUTE* AMP_MUTE* P0R56202 P0AMP0SHDN* C333 47P 50V GND P0P5410TP GND AMP_SHDN* AMP_MUTE* GND 13 12 P0IC501012 SEL 8P0IC50108 CL 9P0IC50109 DA 10 P0IC501010 MUTE P0C33502 P541 NF R524 47K 0W063 C332 10P 50V P0C33401 C529 100P 50V C525 470P 50V P0R51601 5K6 0W063 P0R52401 P0R51802 R516 0R0 0W063 0603 P0C33402 R526 8K2 0W063 15K 0W063 6 P0IC500B06 P0R52402 C528 680P 50V P0C52802 100UF 16V P0R52102 P0P5400TP 5 P0IC500B05 P0C33902 6K8 0W063 P0R52101 P0C52901 P0R52002 P0P5390TP P0C52902 P0C52002 P0R52001 P0R52601 P0C52001 P539 P0C52801 TWEET_L P0TWEET0L R520 P0R52602 C520 IC500B NJM2114M R518 P0IC500B07 7 P0R51801 P0C52501 1K0 0W063 R521 P540 GND N0TWEET0L TWEET_L P0R51602 P543 P0R51402 P0P5430TP P0C52502 P0R51401 N0WOOF0R WOOF_R 100UF 16V P0P5200TP P0IC501013 P0IC50102 P0C32602 C327+5VA 47P 50V N0VOL0CLK VOL_CLK N0VOL0DAT VOL_DAT P545 14 P0IC501014 1K0 0W063 R507 P535 C503 100N 16V -5V GND P0P5450TP C509 IC501 BD3812F-E2 OUT1 P529 P0R50102 P0P5290TP GND -5V 3P0IC50103 IN2 P0C32702 P0C32601 P0C32501 C326 10P 50V GND R514 P0C50501 P0C32301 1P0IC50101 IN1 C325 47P 50V P0C32502 P0C32402 C324 10P 50V R501 P0R50101 P0WOOF0R WOOF_R Address xxxx x00x P0P5020TP -5V C505 100N 16V GND GND P502 P0C50502 NF R508 47K 0W063 P0C32302 P0C32202 P500 P0P5000TP C323 47P 50V 2 4 6 C516 100UF 16V C510 470P 50V P0R50802 P0C51002 C518 100N 16V P0C51001 5K6 0W063 P0R50801 P0C32201 P0C50002 P0C50202 P0C51801 C513 100P 50V P0R50202 P0C32401 GND R502 P0R50201 C322 10P 50V +5VA C522 100UF 16V +5VA GND P0C51601 R510 15K 0W063 8K2 0W063 2 P0IC500A02 GND C500 100UF 16V P0C51602 P0C51202 C512 680P 50V P0R50502 P0P5330TP P0C51802 6K8 0W063 100UF 16V P0R50501 3 P0IC500A03 4 P532 P0R50402 P0P5320TP P0C51301 R504 P0C50802 P0R50401 P0C51302 P0C50801 P0R51001 N0TWEET0R TWEET_R P0C51201 TWEET_RP0TWEET0R P0R51002 C508 C502 100N 16V IC500A GND NJM2114M P0IC500A01 P530 1 P0P5300TP 8 1K0 0W063 R505 P533 GND P0IC500A08 P528 P0R50002 P0P5280TP P0IC500A04 R500 P0R50001 P0C50001 P0C50201 +5VA C504 100UF 16V P0C51702 P0C50401 +5VA GND C568 100N 50V AMP_TEMP_COM* P0AMP0TEMP0COM* ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR Filename: L182_1.0 SoundCube filters + amps.SchDoc Notes: 10_E136 PK 09/09/11 Add test points 1.0 10_E074 PK 30/03/10 Add WWI caps to power amp +ve input pins Add amp output filter, remove option resistors C.0 10_E001 PK 05-01-10 Added WWi caps to all volume control IC pins B.0 PK 08-07-09 09_E142 Contact Engineer: Mark Tweedale [email protected] ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: DATE 28/09/2010 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE Sheet 5 of 7 A2 DRAWING NO. L182CT C651 GND 1N0 50V 0603 GND_CHG P0C60501 P0C60502 P0C60402 P0TR6040C P0REG6010GND P0C60401 P0M6000G P0C60201 P0C60202 P0C62002 GND P673 P0C61201 2 C615 22UF 63V RX +5VA IC600 1 P0IC60001 FC CAP+ 3 P0IC60003 4 P0IC60004 8 P0IC60008 V+ P0IC60002 OSC GND 7 LV 6 P0IC60006 P604 5 P0IC60005 CAP- C612 22UF 63V RX GND P0IC60007 VOUT SP6661EN-L GND C619 P0P6040TPP0C61902 -5V 22UF 63V RX P0C61901 GND 13 D604 P0D6040K MBRS360T3G P679 C646 10uF 10V X5R C625 470UF 16V RX Guarantees no iPod power at cube turn on. P0C65702 P0R63502 P660 R617 P661 P0REG603055 P0R61702 P0P6610TP P0C65701 COMPP0REG60301 P0P6600TP P0R61701 1P0P6620TP VCC P662 24K 22N 0W063 50V 0805 C658 470N 50V P659 P0P6590TP R620 1K8 0W063 8 P0IC60308 P0P6770TP P677 R633 100K 0W063 0603 SM1206 REF = 4.2V at very low current C642 100N 50V 0805 GND_CHG C643 100N 50V 0805 P0R62402 P0P6640TP C632 1UF 25V 0805 X5R R624 P664 30K 0W063 0603 P0C63301 C634 15P 50V 0603 P0C63302 P0P6060TP +3V14(RF) P0C63201 P606 P0C63202 P0C63401 P0C63402 P0R62101 R621 47K 0W063 0603 P0R62401 GND P0REG60404 4 OUTP0REG60403 3 OUT P0REG60405 5 FB P0R62102 1P0REG60401 IN 2P0REG60402 IN 8P0REG60408 EN 6P0REG60406 GND 9P0REG60409 PAD P0C63101 P0C63001 C630 1N0 50V P0C63102 P0R63902 C652 1N0 50V P0C63002 C659 470UF 16V RX C631 1UF 25V 0805 X5R C633 1N0 50V GND P0R62501 P0TR6030C P0R62502 D605 BAT54A SOT-23 P0D6050K1 P0D6050COM P0P6680TP P668 SW600BP0SW600B0NO2 NO2 S2 P0SW600B0S2 C641 100UF 25V RX SDDJE32100 CON602 MOLEX 5569 R625 47K 0W063 0603 N0BATT0PWR0PRESENT* BATT_PWR_PRESENT* R628 P0R62801 to uC P0BATT0PWR0PRESENT* BATT_PWR_PRESENT* TR603 MMUN2211LT1 P0R62802 P0P6750TPP0TR6030B 47K P675 0W063 0603 to reduce power used to detect dc supply P0TR6030E P0D6050K2 P632 P0P6320TP 2 D606 PDS1040L Diode allows battery to power cube when DC supply removed P0SP6030STARPAD2 P0SP6030STARPAD1 P0D6060K P0SP6030STARPAD3 P0SP6030STARPAD4 P0SP6020STARPAD2 P0SP6020STARPAD1 P0R63802 P0C65201 R638 +3V14 P0CON60202 0R15 0W5 REG604 TPS79501DRBR GND 1 P0CON60201 P0R63002 USB_PWR_FAULT* P0USB0PWR0FAULT* +5V(USB)_STICK LDO regulator (for Kleer / RF) GND +19V P0C64101 3A 15uH P0P6710TP C645 1UF 6.3V 0603 X5R GND_CHG P623 N0USB0PWR0FAULT* USB_PWR_FAULT* GND SP603 P0P6230TP +5V(USB)_IPOD ST2052BDR S0-8 500mA limit GND P0D6070A P0L60302 P0R63001 GND P626 P0P6260TP 7 OUT1P0IC60108 8 OC1*P0IC60106 6 OUT2P0IC60105 5 OC2* P0IC60107 +19V(3REG) P0C64102 R632 100K 0W063 0603 P671 P622 P0P6220TP P0P6210TP R635 10K 0W063 0603 IC601 2P0IC60102 IN 3 P0IC60103 EN1 4 P0IC60104 EN2 1 P0IC60101 GND R613 10K 0W063 SM0603 GND 10R 0W25 DFLS230LH GND_CHG L603 R630 P0L60301 P676 P0P6200TP P621 N0EN0IPOD0PWR EN_IPOD_PWR P0EN0IPOD0PWR EN_IPOD_PWR GND C657 P0R61301 +5V(USB) P0SP6010STARPAD2 P0SP6010STARPAD1 P0P6290TP P0R61302 C626 10N 50V SP601 P629 +5V(USB) P0R63501 P655 P0P6550TP R600 5K6 0W063 P0C62501 47U P605 P0P6050TP P0C62502 P0L60202 P0C64601 P0L60201 +5V P0C62601 22N 50V P0C62402 P0R60001 L602 0805 P0REG603013 P0P6790TP P0D6040A P0REG603011 11 OUT P0REG60306 6 FB iPod power switch (and current limit for USB memory stick) P0C65202 R616 24K 0W063 0603 C624 P654 P0REG603016 16P0P6540TP P0C62401 BST IS +3V14 P0C64602 SYNC P0R61501 P0R63901 P0C64301 P633 P0P6330TP P0D6070K P620 P0C64201 M601 NTF2955 SOT-223 P0P6760TP P0C64402 P0P6720TP VADJ R608 0R0 0W063 P0P6730TP SP602 P0C64302 CCV P0C60301 P0R60802 P0C61802 P0C65901 P0R61601 P0R61602 P0C65601 P0C65602 P0C64801 P0C64802 C656 10N 50V 0603 P0D6060A D607 P0IC603011 P0IC60304 P0P6190TP P0C64202 11 CSB P0IC60301010 BATT P0IC60309 9 REF P0M6010D CCS P0C60302 P0C65001 P0C65002 P0R60101 P0C61401 P649 R612 1K8 0W063 P0P6490TP 10R 0W25 R639 C636 100UF 35V P0C63602 P0M6010S P0R63702 P0P6800TP P0M6010G 56R P0IC603014 14GND_CHGP0P6810TP EXT 0W063 P681 P0IC60303 P672 R623 0R033 1W SM1218 P0C63601 P0R62302 P0C63702 4 P0R63102 P0R63701 P0R63201 3 P0R62301 P0C63501 P0C63502 15 P0IC603015 ICHG/EN P0IC60306 Fit for 900kHz osc, NF for 120kHz +5VA GND P0REG602011 P0C62602 P0TR6020C P0C64401 GND_CHG R631 0603 10K P0C64002 P0P6700TP P0R63101 100N 50V C644 0805 4R7 0W063 0603 P0R63301 P0R63202 P0M6020S GND_CHG P669 +19V_AMP P0R62202 GND_CHG R626 P0IC603011 P666 P0P6660TP P0R62601 P0R62602 CSSN C637 4R7 10N 0W063 50V 0603 0603 R637 P680 5 P0IC60305 CCI P0P6690TP 50V 0805 C640 P670 P0C64001 C635 10N 50V 0603 P0R62201 P0R63302 50V 0805 C639 47N P0C63902 R622 2P0P6650TP P665 P0IC60302 CSSP +19V(5REG) P0C64501 P667 P0P6670TP 220N GND_CHG 50V 0805 P0IC60307 12P0IC603012 GND P0M6020D P0C63802 IOUT P619 P0C62802 P0C64502 C638 47N N0CHARGE0DISABLE CHARGE_DISABLE P0M6020G Pullup disables charging by default. 6 P0C62701 P0C62801 DCIN P0R61901 P0R61402 P0R61902 P631 13 16 P0IC603016 7 220N 50V 0805 +19V(7REG) P0C63701 P630 P0P6630TP P0C62702 P0IC603013 P0C62901 P0P6380TP VH P0C62902 C613 470UF 16V RX P0R63801 C628 P638 P663 P0P6310TP from uC C614 10uF 10V X5R +5V C627 C629 P0C63901 R609 5K6 0W063 DCIN P0P6300TP M602 FDV303N SOT-23 P0P6030TP P0C61202 11 P617 OUT P0REG60206 6 FB C618 P650 P651 R611 P0REG60205 5 P0P6510TP P0R61101 P0R61102 P0P6500TP P0C61801 COMPP0REG60201 1 VCC 24K 22N 0W063 50V P0P6520TP P652 0805 C620 470N 50V +5VA 10R 0W5 1N0 50V GND R619 10K 0W063 0603 VL P0R61401 5 P0IC60205 2 P0R62702 P0R62701 P0R62901 P0R62902 R629 10K 0W063 0603 C648 470P 50V 0603 P0C64701 P0P6530TP P0R61502 P0REG603014 14 SWP0REG603015 15 PRE P0REG60304 R614 Output scaled to 3V3 range 5K1 to uC ADC input 0W063 N0V0IOUT0POT 0603 V_IOUT_POT P0V0IOUT0POT V_IOUT_POT IC603 MAX1873TEEE GND D603 DFLS230LH P0D6030K P603 P0R60801 13 P0REG602013 P0P6170TP P0D6030A P0R60002 3P0REG60303 VIN 2 P0REG60302 SD* GND P0C63801 P645 P0R62001 REG603 LM25575 8 P0REG60308 RAMP P657 10 P0REG603010 P0P6570TP SS P658 7P0REG60307 P0P6580TP RT P0P6560TP TR602 MMUN2211LT1 SOT-23 GND 2u2F GND_CHG 50V 1206 X7R R627 100K 0W063 0603 P656 P0TR6020E GND GND N0V0IOUT0RAW V_IOUT_RAW P0L60102 P0P6450TP P0R62002 GND 4 IC602 LMV321IDCKR SC70-5 P628 P0IC60204 4 P0P6280TP P0IC60202 Put pullup on STBY supply in case we want to charge in standby mode. P0C62102 100R 0W063 0603 +3V14(STBY) P0CHARGE0DISABLE CHARGE_DISABLE 100N P0R61802 L601 22N P0C61102 P0L60101 50V 100U 0805 P0C61402 IS 9 12 C653 1UF 25V 0805 GND N0PSU0DISABLE PSU_DISABLE P0TR6020B R618 C605 100UF 16V GND P0C61501 R610 24K 0W063 0603 P0C65801 C623 1UF 25V 0805 P0P6270TP P0R61801 C604 100UF 16V P602 P0P6020TP P653 R615 P0C64702 P627 GND +1V8P0REG6010OP P0REG6010IN GND P0C65802 P0SP6000STARPAD6 SP600 3 P0IC60203 P0P6740TP P674 TR604 MMUN2211LT1 SOT-23 P0C61502 P0R61001 SYNC AGND PGND P0C61702 P0R61002 P0C61701 P0C61601 P0C61602 P0REG60204 24k sets approx 260kHz (slave) 17 P0REG603017 EPGND 9 P0REG60309 AGND 12 P0REG603012 PGND P0C62202 P618 P0P6180TP PGND P0SP6000STARPAD7 P0SP6000STARPAD8 GND_CHG C622 10N 50V P0C65301 P616 P0SP6000STARPAD5 P0P6160TP P0SP6000STARPAD9 P0TR6040B GND C611 P644 16 P0P6440TP P0C61101 P0REG602014 14 SWP0REG602015 15 PRE P0REG60209 P0TR6010E P648 P0P6480TP C617 10N 50V 0603 BST 8 P0REG60208 RAMP 10P0REG602010 SS 7P0REG60207 RT P647 P0P6470TP C647 P0C65302 P0SP6000STARPAD4 P0SP6000STARPAD10 N0PSU0DISABLE PSU_DISABLE P0R61201 4 +19V(5REG) P0C62301 P0P6130TPP0SP6000STARPAD1 GND P0P6120TP P0C62302 P613 1 R606 3K0 0W063 0603 +1V8(D) GND P612 P0C62201 P0P6110TP P0SP6000STARPAD3 P0SP6000STARPAD2 GND P611 P0R63602 P0R63601 P637P0P6370TP 10K 0W063 SM0603 P640 REG601 LM1117MPX-1.8 +3V14 P0R61202 P625 C616 470P 50V 0603 R636 +5V GND P0REG602016 GND P0IC60201 C609 470N 50V 22N 50V 0805 P0R60901 3 P0REG60203 VIN 2 P0REG60202 SD* TR601 MMUN2211LT1 P646 SOT-23 P0P6460TP GND 0603 24K 0W063 P0C60802 P0R60902 REG602 LM25574 P0P6250TP GND 16V P643 P0R60502 P0P6420TPP0C60801 P0C62001 P0C61001 N0PSU0DISABLE PSU_DISABLE P0TR6010B PSU_DISABLE P0C62101 P0P6410TP P0R60501 P0M6000S P0P6010TP C602 470UF 16V RX P0P6400TP C608 +3V14 P601 P0M6000D Pulldown not required on this line to force +3V14 ON (i.e. the non-standby supply) when the uC is booting in USB upgrade mode as digital transistors on this control line elsewhere include internal pulldowns. C610 1UF 25V 0805 P0C61002 P0TR6010C from uC P0PSU0DISABLE C621 P642 +19V(7REG) SD* has internal pull-up to enable +5V P641 R605 GND GND P600 P0P6000TP GND P0P6430TP GND (bulk storage caps on the pre regulator side) C603 10UF 6.3V X5R P0C65902 to reduce power used to detect dc supply C650 10N 50V M600 FDV303N SOT-23 P0TR6040E P0C60701 P0R60401 P0R60402 P0REG60005 5 COMPP0REG60001 1 VCC 20k sets approx 300kHz (faster clock is master) P0DC0PWR0PRESENT* P0REG600011 11 OUT P0REG60006 6 FB P0C61301 DC_PWR_PRESENT* R604 20K 0W063 D601 P0D6010K DFLS230LH R601 4K7 0W063 0603 P0C61302 P678 to uC C607 10N 50V 0603 13 P636 P0C60902 P0R60702 P0P6780TP P0TR6000B P610 47K 0W063 0603 C606 470P 50V 0603 TR600 MMUN2211LT1 R607 P0P6100TPP0R60701 Need to look into how to keep +3V3(STBY) suppliy alive long enough after 19V DC or battery supply has been switched off to perform controlled shutdown. R603 47K 0W063 0603 N0DC0PWR0PRESENT* DC_PWR_PRESENT* P639 P0P6390TP IS P624 P0P6240TP P0REG600013 P0P6360TP P0D6010A 9 12 P0D6020K1 Reverse voltage = 30V max (This should be fine - just.) P634 P0P6340TP P0C60702 P0D6020COM D602 BAT54A SOT-23 8 P0REG60008 RAMP 10P0REG600010 SS 7P0REG60007 RT AGND PGND P0P6350TP +3V14 P0D6020K2 GND P635 SYNC P0REG60009 SW600A SDDJE32100 P0REG600014 14 SWP0REG600015 15 PRE P0REG60004 +3V14(STBY) P0L60002 P0R60102 4 PDS760 T4A Fuse Littelfuse T4A SM RoHS BST P0L60001 P0R60601 GND C601 22N P0C60102 50V 0805 P0R60602 S1 P0SW600A0S1 P0P6090TP P0C60601 P0FS60002 P0C60602 P0FS60001 P0R60301 P0P6080TP nc P0D6000K P0P6070TP L600 100U P615 16P0P6150TP P0C60101 P0REG600016 P0C60901 P607 P0D6000A P0TR6000C P0R60302 1 P609 3P0REG60003 VIN 2 P0REG60002 SD* P0R60201 P61410R 0W5 GND 1N0 50V REG600 LM25574 P0TR6000E 2 P0CON60002 NO1 P0SW600A0NO1 FS600 P608 C600 1UF 25V 0805 P0C65101 P0P6140TP P0R60202 P0REG600012 CON600 P0C64902 DCIN D600 R602 P0C65102 P0REG602012 DC input jack P0CON60001 C649 10N 50V Vf = 0.48V @ 3.5A 25degC Reverse voltage = 60V max P0C60002 Approx. 19V P0C60001 P0C64901 +19V(3REG) GND Drain on battery due to detect ckt: I = V/R = 16.8/67k = 250uA Battery capacity = 2.3Ah Time = 2.3/250u = 9200h = 383days So, current draw by this bit is insignificant c.f. uC standby current GND_CHG R634 P0R63401 100K 0W063 0603 DRAWING TITLE P0R63402 SoundCube - PSU + charge ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR Filename: L182_1.0 SoundCube PSU + charge.SchDoc Notes: 10_E136 PK 09/09/11 10_E074 PK 30/03/10 10_E001 PK 09_E142 Contact Engineer: Mark Tweedale [email protected] PK ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: Add test points 1.0 Remove sense star and av return from star point C.0 Change 5V regulator, remove additonal grounds M600 changed to N type and footprint corrected R612 changed 05-01-10 B.0 to 1k8, CON602 pin out change to put on bottom of PCB 08-07-09 DATE 28/09/2010 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE Sheet 6 of 7 A2 DRAWING NO. L182CT MASWSS0151 1 3 P0IC70503 P0C71701 P0R71301 27R 0W062 0402 P0R71302 L705 4N3 P0R71002 0R0 0402 8P2 0402 NPO P0DIV0CTRL DIV_CTRL P0P7030TP NF R712 0R0 0402 P0SKT7000GND2 P0SKT7010SIG GND GND IC700B SN74LVC2G04DCKR N0DIV0CTRL DIV_CTRL 3 P0IC700B03 N0DIV0CTRL* 4 DIV_CTRL* P0IC700B04 P0P7050TP P705 P708 P0P7080TP P0C71902 R714 P0C71702 P703 OUT P0R71001 GND GND R713 GND C719 10N 16V 0402 X7R LOW PASS FILTER GND P0P7060TPP0R71401 P0R71402 P0P7070TP P706 27R 0W062 0402 +3V14(RF) GND C717 P0FL70105 GND P0C71901 5 IC705 LMV321IDCKR P0IC70504 4 C718 10P 1P5 0402 0402 NPO NPO P0C71602 P0SKT7000GND1 R710 P701 1 P0FL70101 GND 3 P0FL70103 GND 4 P0FL70104 GND 6 P0FL70106 GND PCB TRACE 5 degrees L=40mil W=11mil H=6mil P0C71601 P0R70901 SKT701 Hirose / U.FL-R-SMT(01) P0P7010TP 5 P0R70902 P0L70401 C715 8P2 0402 NPO RF test point FL701 2P0FL70102 IN GND P0SKT7010GND2 1 P0IC70301 P0SKT7000SIG P0SKT7010GND1 MASWSS0151 RF1 P0R71202 8P2 0402 NPO NF R709 0R0 0402 GND P0R71201 P0C70801 3P3 50V P0L70402 P0C70002 P0C70001 N0DIV0CTRL* DIV_CTRL* 4 P0IC70304 V2 5 P0IC70305 P0C70802 RFC N0DIV0CTRL DIV_CTRL 6 P0IC70306 V1 P0C71502 P0C70601 P0C70602 P0C70401 P0C70402 6 VDD2 P0C71801 C714 100N 16V 0402 X7R P0IC70505 P0C71401 P0C71402 N0RX0EN RX_EN C708 GND C716 P0IC70501 GND RF1 N0RX0EN* RX_EN* P0C70202 GND GND GND R706 220K 0402 C711 15P 50V 0402 NPO P0IC70201 P0IC70204 4 V2P0IC70205 5 RFC P0IC70206 6 V1 C700 8P2 0402 NPO P0C70201 P0L70501 2441.75MHz +3V14(RF) N0TX0EN TX_EN VCONT P0IC70403 GND P0TX0EN TX_EN P0L70302 12N 1 GND RF2 L704 3N6 P0L70502 3 P0L70301 +3V14(RF) NF C712 C713 15P 100N 50V 16V 0402 0402 NPO X7R P0IC70203 2 GND P0IC70303 3 RF2 P0IC70302 P0IC70202 P0C71501 8P2 0402 NPO OUT/VDD3 L703 2 3 GND IC703 P0C71301 P0L70202 5N6 IC702 GND 1 RF SWITCH RF SWITCH P0C71302 P0L70201 C706 100N 16V 0402 X7R P0C71201 P0C70902 P0IC70401 GND P0C71202 P0C70901 P0IC70406 4P0IC70404 IN P0L70102 C704 15P 1000R@1GHz 50V 300mA 0402 NPO P0C71101 OUT 5 P0C70501 L702 IC704 UPG2250T5N P0L70101 P0C71102 4 P0FL70004 +3V14(RF) P0C71802 KLR3012_RF P0KLR30120RF GND C709 FL700 1P0FL70001 IN C7052N2 15P 50V 0402 NPO P0IC70405 SAW FILTER P0P7000TP 7 P0IC70407 GND GND C703 100N 16V 0402 X7R C702 P700 L701 P0L70002 SKT700 Hirose / U.FL-R-SMT(01) RF test point L700 P0L70001 VDD1 P0C70302 3 RF2P0IC70102 2 GND P0IC70103 2 MASWSS0151 RF1 P0IC70502 8P2 0402 NPO P0C70702 1 P0IC70101 P0C72001 P0C70701 8P2 0402 NPO 2 P0FL70002 GND 3 P0FL70003 GND 5 P0FL70005 GND N0KLR30120RF KLR3012_RF 6P0IC70106 V1 5 P0IC70105 RFC 4P0IC70104 V2 P0C70102 P0C70502 IC701 P0C70101 P0C70301 RF SWITCH +3V14(RF) P0C72002 P704 P0P7040TP C707 POWER AMPLIFIER C701 N0RX0EN* RX_EN* P0R70601 6 P0IC700A06 P0R70602 N0RX0EN RX_EN 1 P0IC700A01 RX path P0RX0EN P0P7020TP IC700A SN74LVC2G04DCKR TX path P702 RX_EN PCB TRACE 100ohm L=75mil W=11mil H=25mil P707 IC700C 5 P0IC700C05 VCC C720 100N 16V 2 P0IC700C02 GND SN74LVC2G04DCKR DRAWING TITLE SoundCube - RF Amp ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR Filename: L182_1.0 SoundCube RF amp.SchDoc Notes: 10_E136 PK 09/09/11 Add test points 1.0 10_E074 PK 30/03/10 Kleer value recomendations C.0 10_E001 PK 05-01-10 None to this sheet B.0 PK 08-07-09 09_E142 Contact Engineer: Mark Tweedale [email protected] ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: DATE 28/09/2010 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE Sheet 7 of 7 A2 DRAWING NO. L182CT Connections swapped over cf conn on iPod board N0IR0EYE0DIS IR_EYE_DIS P3 P0P30TP N0STBY0LED0RED STBY_LED_RED P4 P0P40TP WAS STANDBY SW P5 P0P50TP N0INT0DISPLAY0DIS* INT_DISPLAY_DIS*P0P60TPP6 N0I2C0SDA0DIS I2C_SDA_DIS P7 P0P70TP N0I2C0SCL0DIS I2C_SCL_DIS P8 P0P80TP P0C401 DGND_DSPLY_DIS +3V14(STBY)_DIS P0L101 P0L102 C2 100UF 6.3V C1 P0C101 10N C3 1UF 6.3V C4 100N 16V P9 P10 P0P100TP P11 P0P110TP P12 P0P120TP P13 P0P130TP P14 P0P140TP P15 P0P150TP P0IC1033 VDD P0IC1016 16 VDDP0IC1017 17 VDD N0VOL+ LED VOL+ LED N0VOL0 LED VOL- LED N0STBY0LED0BLU STBY_LED_BLU N0WIRELESS GRN WIRELESS GRN N0WIRELESS RED WIRELESS RED N0SOURCE RED SOURCE RED N0SOURCE GRN SOURCE GRN 19 P0IC1019 IO0 20 P0IC1020 IO1 21 P0IC1021 IO2 26 P0IC1026 IO3 27 P0IC1027 IO4 5 P0IC105 IO5 6 P0IC106 IO6 P0P90TP P0C1002 DGND_DSPLY_DIS NF C10 100N 16V SW2 P0C502 50V P0IC1022 /CHG SDA P0IC1024 SCL P0IC1025 /RST P0IC1023 P0R802 EPAD 22 23 24 25 10K R2 0W063 SNS2 N0SNS2K SNS2K P0IC101313 SNS3 P0IC107 7 SNS3K N0SNS3 SNS3 N0SNS3K SNS3K 14 8 SNS4 N0SNS4K SNS4K 50V C7 P0C701 10N 10K R3 0W063 N0TOUCH0POW TOUCH_POW P0R302 SW4 50V 10K R4 0W063 P0R401 N0TOUCH0WIRE TOUCH_WIRE P0R402 WIRELESS P0SW401 SW5 P0C802 50V N0SNS4 POWER P0SW301 P0C702 C8 P0C801 10N VOL - P0SW201 SW3 P0C602 N0SNS1 N0SNS2 N0TOUCH0VOL0 TOUCH_VOL- P0R202 10K R6 0W063 P0R601 N0TOUCH0SRC TOUCH_SRC P0R602 SOURCE P0SW501 P0IC101515 SNS5 P0IC109 9 SNS5K P0IC1029 R8 0R0 0W063 P0R801 12 SNS2 P0IC102 2 SNS2K C6 P0C601 10N VOL + P0SW101 29 NF IC2 LM809M3-2.63 SNS1 N0SNS1K SNS1K N0TOUCH0VOL+ TOUCH_VOL+ P0R102 DGND_DSPLY_DIS P0IC20RST* RST P16 P0P160TP P0IC20GND P0C1001 O/PP0RX10OP GND VCCP0IC20VCC N0IR0EYE0DIS IR_EYE_DIS 11 SNS1 P0IC101 1 SNS1K SNS4 P0IC108 SNS4K 4 P0IC104 VSS 18 P0IC1018 VSS P0R701 P0R702 P0R1601 P31 P0P310TP DGND_DSPLY_DIS LED1 1206 RED P32 P0P320TP N0STBY0LED0RED STBY_LED_RED P0TR10B TR8 MMUN2211LT1 DGND_DSPLY_DIS C18 10N 50V DGND_DSPLY_DIS N0STBY0LED0BLU STBY_LED_BLU P0TR80B P0TR70B P0LED10A P0R1602 LED8 1206 BLUE P0TR10C P0LED10K P30 P0P300TP TR7 MMUN2211LT1 C17 10N 50V R16 33R 0W125 TR1 MMUN2211LT1 DGND_DSPLY_DIS P0TR10E LED7 1206 RED R15 39R 0W125 P0C1801 R14 120R 0W125 P0C1802 P0LED70A P0R1402 P0C1601 P0C1602 P0LED60A P0R1302 P0TR60C P0LED60K DGND_DSPLY_DIS P0R1501 P0R1301 DGND_DSPLY_DIS C16 10N 50V DGND_DSPLY_DIS N0VOL+ LED VOL+ LED P0TR60B TR6 MMUN2211LT1 P0TR50E TR5 MMUN2211LT1 P29 P0TR60E N0VOL0 LED VOLLED LED6 1206 RED P0P290TP DGND_DSPLY_DIS N0WIRELESS GRN WIRELESS GRNP0TR50B DGND_DSPLY_DIS TOOL1 FD2 TOOL2 P0FD201 FD1 P0FD101 DGND_DSPLY_DIS P0C1501 P28 P0P280TP DGND_DSPLY_DIS C15 10N 50V P0C1502 LED5 1206 GREEN R13 120R 0W125 P0LED80A P0R1502 P0R1201 P0LED50A P0R1202 P0TR50C P0LED50K P0C1401 P0C1402 P0TR40C P0LED40K P0LED40A P0R1102 TR4 MMUN2211LT1 C14 10N 50V R12 2K7 0W125 P0TR80C P0LED80K P0R1101 DGND_DSPLY_DIS P27 P0TR40E TR3 MMUN2211LT1 P0C1301 N0WIRELESS RED WIRELESS REDP0TR40B P0TR30B LED4 1206 RED P0P270TP DGND_DSPLY_DIS P0TR30E P0C1201 P0LED30A P0R1002 P0TR30C P0LED30K P26 C13 10N 50V R11 75R 0W125 +3V14(STBY)_DIS P0TR80E P0R1001 DGND_DSPLY_DIS LED3 1206 GREEN P0P260TP DGND_DSPLY_DIS N0SOURCE GRN GRN SOURCE P0TR20B TR2 MMUN2211LT1 P0C1202 P25 C12 10N 50V R10 2K7 0W125 +5V_DIS P0C1701 P0R901 LED2 1206 RED P0P250TP DGND_DSPLY_DIS N0SOURCE RED SOURCE RED P0TR20C P0LED20K C11 10N 50V R9 75R 0W125 +5V_DIS P0C1702 +5V_DIS P0R1401 +5V_DIS P0TR70C P0LED70K +5V_DIS P0TR70E +5V_DIS P0LED20A P0R902 +5V_DIS P0TR20E P0C1102 P0C1101 DGND_DSPLY_DIS P0C1302 GND VCCP0RX10VCC 10K R1 0W063 P0R301 P0IC1014 +3V14(STBY)_DIS P0RX10GND P0C901 P0C902 P0C1901 RX1 KSM-2002TM5B N0SNS0 SNS0 N0SNS0K SNS0K P0IC1012 P0R501 NF R7 10K 0W063 0603 P0IC1010 10 SNS0 P0IC1028 28 SNS0K P0IC1011 IC1 AT42QT1060-MMU 100K P0R502 R5 0W063 N0INT0DISPLAY0DIS* INT_DISPLAY_DIS* N0I2C0SDA0DIS I2C_SDA_DIS N0I2C0SCL0DIS I2C_SCL_DIS +3V14(STBY)_DIS P0C1902 C5 P0C501 10N DGND_DSPLY_DIS +3V14(STBY)_DIS C9 100N 16V 0603 50V P0R201 MOLEX 52793 C19 10UF 6.3V SW1 P0C102 P0R101 P0C402 P0C201 +5V_DIS P0C302 P1 P2 P0P20TP P0P10TP P0CON102 P0C202 1 2 P0CON103 3 P0CON104 4 P0CON105 5 P0CON106 6 P0CON107 7 P0CON108 8 P0CON109 9 P0CON1010 10 P0CON101 P0C301 +3V14(STBY)_DIS L1 120R@100MHz CON1 TOOL3 ITEM PCB1 QTY PART No. 1 L194PB DESCRIPTION TOOL4 NOTES Blank PCB SoundCube Display DRAWING TITLE SoundCube - Display ARCAM A & R Cambridge Ltd. Pembroke Avenue Waterbeach Cambridge CB25 9QR Filename: L194_C.1 SoundCube Display.SchDoc Notes: Contact Engineer: Mark Tweedale [email protected] Change R10/R12 to 2k7 Change R9/R11 to 75R Change IR rx footprint to correct pin reversal Green LED drive resistors changed 10_E118 NC 19/8/10 10_E074 PK 04/03/10 10_E001 PK 17/12/09 Change to touch sensitive buttons B.0 09_E140 PK 08-07-09 Prototype release A.0 DESCRIPTION OF CHANGE ISSUE ECO No. INITIALS Contact Tel Direct: 01223 203210 Contact Tel Reception: 01223 203200 Printed: DATE 19/08/2010 Sheet 1 of 1 A3 DRAWING NO. C.1 C.0 L194CT 1 2 4 3 7 6 5 F 8 DATE CHG. ZONE -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ECO NR. DESCRIPTION OF CHANGE REL. DR. CHK. E F E 3 D D ITEM NO. C PART No. DESCRIPTION QTY 1 F075 / F075W FOOT 3M BUMPON SJ-5012 4 2 E867CP / E867CPW BOTTOM COVER PLATE - CUBE 1 3 E390AY BATTERY ASSMEBLY - CUBE 1 C 2 B B 23425 1 TOLERANCES UNLESS 0.00± 0.10 OTHERWISE STATED 0.0 ± 0.20 ANGULAR TOL. +2 DEGREES MCM DRAWN BY: 12-10-2010 A & R CAMBRIDGE LTD DATE: ALL DIMENSIONS IN MILLIMETERS UNLESS OTHERWISE STATED CHECKED BY: MGB ORIGINAL SCALE 1:2 MATERIAL: FINISH: A SHT 1 OF 5 A PART NUMBER AND DRAWING NUMBER CUBE MAIN ASSEMBLY DRAWING TITLE 1 2 4 3 0 6 5 10 20 30 40 50 60 70 80 90 100 A3 BASE COVER 7 8 2 1 4 3 7 6 5 F 8 DATE CHG. ZONE -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ECO NR. DESCRIPTION OF CHANGE REL. DR. CHK. F 3 E E D D ITEM NO. PART No. DESCRIPTION QTY 1 L182AY PCB ASSY - MAIN 1 2 HA6L12B CAP HEAD BOLT M6x12 4 3 E977PM TRIM RING - ENCLOSURE - CUBE 1 C C 2 B B 1 23425 TOLERANCES UNLESS 0.00± 0.10 OTHERWISE STATED 0.0 ± 0.20 ANGULAR TOL. +2 DEGREES MCM DRAWN BY: 12-10-2010 A & R CAMBRIDGE LTD DATE: ALL DIMENSIONS IN MILLIMETERS UNLESS OTHERWISE STATED MGB CHECKED BY: ORIGINAL SCALE 1:2.5 MATERIAL: FINISH: A SHT 2 OF 5 A PART NUMBER AND DRAWING NUMBER CUBE MAIN ASSEMBLY DRAWING TITLE A3 MAIN PCB + TOP 1 2 4 3 0 6 5 10 20 30 40 50 60 70 80 90 100 7 8 2 1 4 3 7 6 5 F 8 DATE CHG. ZONE -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ECO NR. DESCRIPTION OF CHANGE REL. DR. CHK. E F E 2 D D ITEM NO. 1 PART No. DESCRIPTION QTY 1 E105MC / E105MCW BASE CASTING - CUBE 1 2 E977PM TRIM RING - ENCLOSURE - CUBE 1 3 E850AP FOAM PAD - BATTERY COMPARTMENT 1 4 E851AP FOAM STRIP - BATTERY COMPARTMENT 1 C C 3 B B 4 23425 TOLERANCES UNLESS 0.00± 0.10 OTHERWISE STATED 0.0 ± 0.20 ANGULAR TOL. +2 DEGREES MCM DRAWN BY: 12-10-2010 A & R CAMBRIDGE LTD DATE: ALL DIMENSIONS IN MILLIMETERS UNLESS OTHERWISE STATED CHECKED BY: MGB ORIGINAL SCALE 1:2 MATERIAL: FINISH: A SHT 3 OF 5 A PART NUMBER AND DRAWING NUMBER CUBE MAIN ASSEMBLY DRAWING TITLE 1 2 4 3 0 6 5 10 20 30 40 50 60 70 80 90 100 A3 BASE 7 8 1 2 4 3 7 6 5 F 8 DATE CHG. ZONE -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ECO NR. DESCRIPTION OF CHANGE REL. DR. CHK. F 1 E E 2 ITEM NO. PART No. DESCRIPTION QTY 1 E398AY / E398AYW DOCK ASSEMBLY - CUBE 1 2 F327 SPRING - REMOVABLE DOCK - CUBE 2 D D C C B B 23425 TOLERANCES UNLESS 0.00± 0.10 OTHERWISE STATED 0.0 ± 0.20 ANGULAR TOL. +2 DEGREES MCM DRAWN BY: 13-9-2010 A & R CAMBRIDGE LTD DATE: ALL DIMENSIONS IN MILLIMETERS UNLESS OTHERWISE STATED CHECKED BY: MGB ORIGINAL SCALE 1:1 MATERIAL: FINISH: A SHT 4 OF 5 A PART NUMBER AND DRAWING NUMBER CUBE MAIN ASSEMBLY DRAWING TITLE 1 2 4 3 0 6 5 10 20 30 40 50 60 70 80 90 100 A3 iPOD DOCK 7 8 2 1 4 3 7 6 5 5 4 F 8 DATE CHG. ZONE -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ECO NR. DESCRIPTION OF CHANGE REL. DR. CHK. F 2 3 E E D D ITEM PART No. DESCRIPTION NO. 1 E413AY / E413AYW TOP PLATE ASSEMBLY - CUBE 1 C QTY 1 2 E397AY / E397AYW DOCK FLAP ASSEMBLY - CUBE 1 3 L194AY TOUCH BUTTON PCB ASSEMBLY 1 4 L116CA FLEXFOIL - iPOD PCB TO BUTTON PCB 1 5 F325 NYLON SPACER 4 C B B 23425 TOLERANCES UNLESS 0.00± 0.10 OTHERWISE STATED 0.0 ± 0.20 ANGULAR TOL. +2 DEGREES MCM DRAWN BY: 13-9-2010 A & R CAMBRIDGE LTD DATE: ALL DIMENSIONS IN MILLIMETERS UNLESS OTHERWISE STATED CHECKED BY: MGB ORIGINAL SCALE 1:1 MATERIAL: FINISH: A SHT 5 OF 5 A PART NUMBER AND DRAWING NUMBER CUBE MAIN ASSEMBLY DRAWING TITLE 1 2 4 3 0 6 5 10 20 30 40 50 60 70 80 90 100 A3 TOP PLATE 7 8 TO REPLACE iPOD PCB !! ANTI-STATIC PRECAUTIONS MUST BE TAKEN TO AVOID DAMAGE TO ELECTRONIC COMPONENTS 1. PARTLY OPEN DOCK FLAP 2. SLIDE DOCK REARWARDS AGAINST SPRING PRESSURE 3. HINGE DOCK UPWARDS TO REVEAL FLEXFOIL CABLES 4. DISCONNECT FLEXFOILS & HINGE DOCK FULLY UPWARDS !! 5. UNDO iPOD PCB SCREWS & REMOVE RETAINING BAR, GROMMETS & PCB 6. FIT GROMMETS TO NEW PCB & REVERSE REMOVAL INSTRUCTIONS... TO REPLACE BATTERY CAUTION DANGER OF EXPLOSION IF BATTERY IS INCORRECTLY REPLACED. REPLACE ONLY WITH THE SAME OR EQUIVALENT TYPE. 1. REMOVE RUBBER FEET FROM BASE OF UNIT 2. REMOVE SCREWS & BASE COVER 3. REMOVE BATTERY & RELEASE CONNECTOR 4. FIT NEW BATTERY & CONNECTOR & REVERSE REMOVAL INSTRUCTIONS FIT NEW SELF-ADHESIVE FEET SUPPLIED No part of this document may be reproduced of transmitted in any form or by any means, electronic or mechanical, for any purpose without the express permission of A&R Cambridge ltd. This manual is for the exclusive use of A&R Cambridge ltd, it’s approved distributors and affiliated service agents, No part of this manual may be transferred to any other party without express permission of A&R Cambridge ltd. This manual has been generated with great care, it is intended for information only and no liability shall be accepted for errors or changes to specification. A&R Cambridge Ltd Pembroke Avenue Waterbeach Cambridge England CB25 9QR +44 (0)1223 203200 www.arcam.co.uk