How it Works
Sanyo
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MTK1379
Service Manual
75 pgs3.32 Mb0
Table of contents
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Sanyo MTK1379, MTK1369 Service Manual

1. PRECAUTIONS--------------------------------------------------------------------------------------------------------------------1
AFETY PRECAUTIONS---------------------------------------------------------------------------------------------------------- 1
1-1 S 1-2 S
ERVICING PRECAUTIONS------------------------------------------------------------------------------------------------------2
1-2-1 General Serving Precautions -------------------------------------------------------------------------------------------- 2 1-2-2 Insulation Checking Procedure------------------------------------------------------------------------------------------ 3
1-3 ESD P
2. REFERENCE INFORMATION------------------------------------------------------------------------------------------------4
2-1 C
2-1-1 DVD SANYO HD60 PUH ------------------------------------------------------------------------------------------------ 4 2-1-2 DVD Processor Chip (MTK1379)--------------------------------------------------------------------------------------- 6 2-1-4 20-Pin, 24-Bit, 96kHz Ster eo D/A with Volume Control (WM8720)-----------------------------------------------15 2-1-5 Serial EEPROM, 2K (256 x 8) (24C16)-------------------------------------------------------------------------------17 2-1-7 512K X 16 Bit X 2 Banks Synchronous DRAM (A43L0616) -------------------------------------------------------20
3. PRODUCT SPECIFICATIONS------------------------------------------------------------------------------------------------23
RECAUTIONS ------------------------------------------------------------------------------------------------------------- 3
OMPONENT DESCRIPTIONS ---------------------------------------------------------------------------------------------------4
4. OPERATING INSTRUCTIONS-----------------------------------------------------------------------------------------------24
BASIC OPERATIONS -----------------------------------------------------------------------------------------------------------------24 ADVANCE OPERATIONS-------------------------------------------------------------------------------------------------------------26 SETUP OPERATIONS -----------------------------------------------------------------------------------------------------------------34 K
ARAOKE OPERATIONS ------------------------------------------------------------------------------------------------------------44
MP3 O K M
PERATIONS-------------------------------------------------------------------------------------------------------------------45
ODAK PICTURE CD OPERATIONS -----------------------------------------------------------------------------------------------47
AINTENANCE & TROUBLESHOOTING ------------------------------------------------------------------------------------------48
5. DISASSEMBLY AND REASSEMBLY---------------------------------------------------------------------------------------50
6. TROUBLESHOOTING----------------------------------------------------------------------------------------------------------51
7. ELECTRICAL PART LIST-----------------------------------------------------------------------------------------------------52
8. BLOCK DIAGRAM--------------------------------------------------------------------------------------------------------------63
9. CIRCUIT DIAGRAMS ----------------------------------------------------------------------------------------------------------65
10. WIRING DIAGRAM -----------------------------------------------------------------------------------------------------------73

1. PRECAUTIONS

1-1 Safety Precautions

1) Before returning an instrument to the customer, always make a safety check of the entire instrument, including, but not limited to, the following items:
(1) Be sure that no built-in protective devices are defective
or have been defeated during servicing. (1) Protective shields are provided to protect both the technician and the customer. Correctly replace all missing protective shields, including any remove for servicing convenience. (2) When reinstalling the chassis and/or other assembly in the cabinet, be sure to put back in place all protective devices, including, but not limited to, nonmetallic control knobs, insulating fish papers, adjustment and compartment covers/shields, and isolation resistor/capacitor networks. Do not operate this instrument or permit it to be operated without all protective devices correctly installed and functioning.
(2) Be sure that there are no cabinet opening through which
adults or children might be able to insert their fingers and contact a hazardous voltage. Such openings include, but are not limited to, excessively wide cabinet ventilation slots, and an improperly fitted and/or incorrectly secured cabinet back cover.
(3) Leakage Current Hot Check-With the instrument
completely reassembled, plug the AC line cord directly into a 120V AC outlet. (Do not use an isolation transformer during this test.) Use a leakage current tester or a metering system that complies with American National Standards institute (ANSI) C101.1 Leakage.
Current for Appliances and underwriters Laboratories (UL) 1270 (40.7). With the instrument’s AC switch first in the ON position and then in the OFF position, measure from a known earth ground (metal water pipe, conduit, etc.) to all exposed metal parts of the instrument (antennas, handle brackets, metal cabinets, screwheads, metallic overlays, control shafts, etc.), especially and exposed metal parts that offer an electrical return path to the chassis. Any current measured must not exceed 0.5mA. Reverse the instrument power cord plug in the outlet and repeat the test.
AC Leakage Test
Any measurements not within the limits specified herein indicate a potential shock hazard that must be eliminated before returning the instrument to the customer.
(4) Insulation Resistance Test Cold Check-(1) Unplug the
power supply cord and connect a jumper wore between the two prongs of the plug. (2) Turn on the power switch of the instrument. (3) Measure the resistance with an ohmmeter between the jumpered AC plug and all exposed metallic cabinet parts on the instrument, such as screwheads, antenna, control shafts, handle brackets, etc. When an exposed metallic part has a return path to the chassis, the reading should be between 1 and 5.2 megohm. When there is no return path to the chassis, the reading must be infinite. If the reading is not within the limits specified, there is the possibility of a shock hazard, and the instrument must be re-pared and rechecked before it is returned to the customer.
Insulation Resistance Test
1
2) Read and comply with all caution and safety related notes non or inside the cabinet, or on the chassis.
3) Design Alteration Warning-Do not alter of add to the mechanical or electrical design of this instrument. Design alterations and additions, including but not limited to, circuit modifications and the addition of items such as auxiliary audio output connections, might alter the safety characteristics of this instrument and create a hazard to the user. Any design alterations or additions will make you, the service, responsible for personal injury or property damage resulting there from.
4) Observe original lead dress. Take extra care to assure correct lead dress in the following areas: (1) near sharp edges, (2) near thermally hot parts (be sure that leads and components do not touch thermally hot parts), (3) the AC supply, (4) high voltage, and (5) antenna wiring. Always inspect in all areas for pinched, out-of-place, or frayed wiring. Do not change spacing between a component and the printed-circuit board, Check the AC power cord for damage.
5) Components, parts, and/or wiring that appear to have overheated or that are otherwise damaged should be replaced with components, parts and/or wiring that meet original specifications. Additionally determine the cause of overheating and/or damage and, if necessary, take corrective action to remove and potential safety hazard.
6) Product Safety Notice-Some electrical and mechanical parts have special safety-related characteristics which are often not evident from visual inspection, nor can the protection they give necessarily be obtained by replacing them with components rated for higher voltage, wattage, etc. Parts that have special safety characteristics are identified by shading, an ( (
) on schematics and parts lists. Use of a substitute replacement that does not have the same safety characteristics as the recommended replacement part might created shock, fire and/or other hazards. Product safety is under review continuously and new instructions are issued whenever appropriate.
) or a

1-2 Servicing Precautions

CAUTION: Before servicing Instruments covered by this
service manual and its supplements, read and follow the Safety Precautions section of this manual.
Note: If unforeseen circument create conflict between the following servicing precautions and any of the safety precautions, always follow the safety precautions. Remember; Safety First

1-2-1 General Serving Precautions

(1) a. Always unplug the instrument’s AC power cord from
the AC power source before (1) removing or reinstalling any component, circuit board, module or any other instrument assembly. (2) disconnecting any instrument electrical plug or other electrical connection. (3) connecting a test substitute in parallel with an electrolytic capacitor in the instrument.
b. Do not defeat any plug/socket B+ voltage interlocks
with which instruments covered by this service manual might be equipped.
c. Do not apply AC power to this instrument and/or any
of its electrical assemblies unless all solid-state device heat sinks are correctly installed.
d. Always connect a test instrument’s ground lead to
the instrument chassis ground before connecting the test instrument positive lead. Always remove the test instrument ground lead last.
Note: Refer to the Safety Precautions section ground lead last.
(2) The service precautions are indicated or printed on the
cabinet, chassis or components. When servicing, follow the printed or indicated service precautions and service materials.
(3) The components used in the unit have a specified flame
resistance and dielectric strength. When replacing components, use components which have the same ratings, by ( circuit diagram are important for safety or for the characteristics of the unit. Always replace them with the exact replacement components.
(4) An insulation tube or tape is sometimes used and some
components are raised above the printed wiring board for safety. The internal wiring is sometimes clamped
) or by ( ) in the
2
to prevent contact with heating components. Install such elements as they were.
(5) After servicing, always check that the removed screws,
components, and wiring have been installed correctly and that the portion around the serviced part has not been damaged and so on. Further, check the insulation between the blades of the attachment plus and accessible conductive parts.

1-3 ESD Precautions

1-2-2 Insulation Checking Procedure

Disconnect the attachment plug from the AC outlet and turn the power ON. Connect the insulation resistance meter (500V) to the blades of the attachment plug. The insulation resistance between each blade of the attachment plug and accessible conductive parts (see note) should be more than 1 Megohm.
Note: Accessible conductive parts include metal panels, input terminals, earphone jacks, etc.
Electrostatically Sensitive Devices (ESD)
Some semiconductor (solid static electricity) devices can be damaged easily by static electricity. Such compo9nents commonly are called Electrostatically Sensitive Devices (ESD). Examples of typical ESD devices are integrated circuits and some field-effect transistors and semiconductor chip components. The following techniques of component damage caused by static electricity.
(1) immediately before handling any semiconductor
components or semiconductor-equipped assembly, drain off any electrostatic charge on your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging wrist strap device, which should be removed for potential shock reasons prior to applying power to the unit under test.
(2) after removing an electrical assembly equipped with
ESD devices, place the assembly on a conductive surface such as aluminum foil, to prevent electrostatic charge buildup or exposure of the assembly.
(3) Use only a grounded-tip soldering iron to solder or
unsolder ESD device.
(4) Use only an anti-static solder removal devices. Some
solder removal devices not classified as “anti-static” can generate electrical charges sufficient to damage ESD devices.
(5) Do not use freon-propelled chemicals. These can
generate electrical charges sufficient to damage ESD devices.
(6) Do not remove a replacement ESD device from its
protective package until immediately before you are ready to install it. (Most replacement ES devices are packaged with leads electrically shorted together by conductive foam, aluminum foil or comparable conductive materials).
(7) Immediately before removing the protective materials
from the leads of a replacement ES device touch the protective material to the chassis or circuit assembly into which the device will be installed.
CAUTION: Be sure no power is applied to the chassis or circuit, and observe all other safety precautions.
(8) Minimize bodily motions when handling unpackaged
replacement ESD devices. (Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity sufficient to damage an ESD device).
3

2. Reference Information

2-1 Component Descriptions

2-1-1 DVD SANYO HD60 PUH

Connector Pin Definition
I/F Signals I/O Pin #
F- 1 F+ 2 T+ 3 T- 4 C 5
D 6 CD/DVD 7
RF 8 A 9 B 10 F 11 GND-PD 12
VC 13
VCC 14 E 15
NC 16 VR-CD 17 VR-DVD 18 LD-CD 19 MD 20 HFM 21 NC 22 LD-DVD 23 GND-LD 24
4
p
4. Block Diagram
Disc
Disc motor unit
Spindle Motor
BA6208
Spindle Motor Drive
Focus Coil
Laser
ickup
Track Coil
BA5954FP
4ch motor Drive
MT1369 (RF AMP) Laser Driver Equalizer Error Gen
Sied Motor
Loading Motor
MT1369
(Decode/Servo)
ATAPI
Buffer Manager
Demodulator
Error Correction
PLI
Focus & Tracking
Loading
AuDdio D/A WM8720
SDRAM 1*16MHzX2
Video D/A
CS4955
1/F Conn (frant pannel)
80c52
System Controller
Spindle motor single for CLV
Fiash
Memory
8Mbit
5

2-1-2 DVD Processor Chip (MTK1379)

* Features
Single-chip DVD video decoder in a 208-pin PQFP package Supports MPEG-1 system and MPEG-2 program streams Programmable multimedia processor architecture Compatible with Audio CD, Video CD, VCD 3.0, and Super Video CD (SVCD) DVD Navigation 1 Built-in content Scrambling System (CSS)
- Audio
Built-in Karaoke key-shift function DolbyTM Digital 2-channel down mix audio output for DolbyTM Dolby Pro Logic Linear PCM streams for24 bit / 96KHz Concurrent S/PDIF out and 2-channel audio output Sensaura Dolby Digital Virtual Surround DTS Digital Surround 2-channel down mix stereo output S/PDIF output for encoded AC-3, DTS Digital output or Linear PCM
- Peripheral
Glueless interface to DVD loaders (ATAPI or A/V bus I/F) Bi-directional 12C audio interface 8 general-purpose auxiliary ports Single 27MHz clock input
- Smart Technology
SmartZoomTM for motion zoom & pan SmartZoomTM for NTSC to PAL conversion and vice versa
SmartZoomTM for video error concealment
* Functional Description
6
* Pinout Diagram
7
1
IREF
2
PLLVSS
3
LPIOP
4
LPION
5
LPFON
6
LPFIP
7
LPFIN
8
LPFOP
9
JITFO
10
JITFN
11
PLLVDD3
12
FOO
13
TRO
14
TROPENPWM
15
PWMOUT1
16
PWMOUT2
17
DVDD2
18
DMO
19
FMO
20
DVSS
21
FG
22
HIGHA0
23
HIGHA1
24
HIGHA2
25
HIGHA3
26
HIGHA4
27
HIGHA5
28
DVSS
29
HIGHA6
30
HIGHA7
31
AD7
32
AD6
33
AD5
34
AD4
35
DVDD3
36
AD3
37
AD2
38
AD1
39
AD0
40
IOA0
41
IOA1
42
DVDD2
43
IOA2
44
IOA3
45
IOA4
46
IOA5
47
IOA6
48
IOA7
49
A16
50
A17
51
IOA18
52
IOA19
53
IOA20
54
APLLVSS
216
215
RFIP
214
RFIN
213
210
211
212
ADCVDD3
RFDTSLVP
RFDTSLVN
PWM2VREF
209
PWMVREF
207
208
HRFZC
RFRP_AC
206
RFRP_DC
205
204
FEI
RFLEVEL
202
201
200
199
198
197
196
195
194
193
192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
DVSS
YUV7
VSYN
BLANK#
173
ICE
YUV6/R
203
TEI
CSO
BDO
ADIN
SLCK
SDEN
SDATA
RFSUBI
TEZISLV
ADCVSS
WOBSI
DVSS
PRST
XTALI
VFO13
XTALO
SPBCK
DVDD3
IDGATE
UDGATE
DVDD3
HSYN
DVDD2
SPLRCK
SPDATA
SPMCLK
MT1379_216
APLLVDD3
ALE
IOOE#
IOWR#
IOCS#
DVSS
UP1_2
UP1_3
UP1_4
UP1_5
UP1_6
DVDD3
UP1_7
UP3_0
UP3_1
INT0#IRDVDD2
UP3_4
UP3_5
UWR#
URD#
DVSS
RD7
RD6
RD5
RD4
DVDD2
RD3
RD2
RD1
RD0
RWE#
CAS#
RAS#
RCS#
BA0
DVSS
RD15
RD14
RD13
RD12
DVDD3
RD11
555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899
172
YUV5/B
RD10
171
DACVSSA
RD9
100
170
101
169
YUV4/G
RD8
102
168
DACVDDA
DVSS
103
167
YUV3/CVBS
CLK
104
166
YUV2/Y
DACVSSB
CLE
RA11
105
165
106
164
DACVDDB
RA9
107
YUV1/C
RA8
163
YUV0/CIN
DACVDDC
108
U4 MT1379E
SMD LQFP-216
DACVSSC
FS
VREF
ASDATA4 ASDATA3 ASDATA2 ASDATA1 ASDATA0
SPDIF
MC_DATA
ACLK
DVDD3
ALRCK
ABCK RD16 RD17 DVSS RD18 RD19 RD20 RD21
DVDD2
RD22
RD23 DQM2 DQM3
DVSS
RD24
RD25
RD26
RD27
DVDD3
RD28
RD29
RD30
RD31
DVSS
RA3 RA2 RA1 RA0
DVDD2
RA10
BA1 DQM0 DQM1
DVSS
RA4
RA5
RA6
DVDD3
RA7
DMVSS
DMVDD3
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
8
PIN DESCRIPTON
PIN Symbol Type Description
1 IREF Analog Input 2 PLLVSS Ground Ground for data PLL and related analog circuitry
3 LPIOP Analog output Positive output of the low pass filter 4 LPION Analog output Negative output of the low pass filter 5 LPFON Analog output Negative output of loop filter amplifiter 6 LPFIP Analog input Positive input of loop filter amplifier 7 LPFIN Analog input Negative input of loop filter amplifier 8 LPFOP Analog output Positive output of loop filter amplifier
9 JITFO Analog output RF jitter meter output 10 JITFN Analog input Negative input of the operation amplifier for RF jigger meter 11 PLLVDD3 Power Power for data PLL and related analog circuitry 12 FOO Analog output Focus servo output. PDM output of focus servo compensator 13 TRO Analog output Tracking servo output.PDM output of tracking servo compensator
14 TROPENPWM Analog outpu
16 PWMOUT2 Analog outpu The general PWM output 17 DVDD2 Power 2.5V power 18 DMO Analog outpu Disk motor control output.PWM output 19 FMO Analog outpu Feed motor control. PWM output 20 FG Inout, pull up Motor Hall sensor input 21 DVSS Ground Ground 22 HIGHA0 Inout, pull up Microcontroller address 8 23 HIGHA1 Inout, pull up Microcontroller address 9 24 HIGHA2 Inout, pull up Microcontroller address 10 25 HIGHA3 Inout, pull up Microcontroller address 11 26 HIGHA4 Inout, pull up Microcontroller address 12 27 HIGHA5 Inout, pull up Microcontroller address 13 28 DVSS Ground Ground 29 HIGHA6 Inout, pull up Microcontroller address 14 30 HIGHA7 Inout, pull up Microcontroller address 15 31 AD7 Inout Microcontroller address/data 7 32 AD6 Inout Microcontroller address/data 6 33 AD5 Inout Microcontroller address/data 5 34 AD4 Inout Microcontroller address/data 4 35 DVDD3 Power 3.3V power 36 AD3 Inout Microcontroller address/data 3 37 AD2 Inout Microcontroller address/data 2 38 AD1 Inout Microcontroller address/data 1 39 AD0 Inout Microcontroller address/data 0 40 IOA0 Inout, pull up Microcontroller address 0/GPIO0 41 IOA1 Inout, pull up Microcontroller address 0/GPIO1 42 DVDD2 Power 2.5V power 43 IOA2 Inout, pull up Microcontroller address 0/GPIO2 44 IOA3 Inout, pull up Microcontroller address 0/GPIO3 45 IOA4 Inout, pull up Microcontroller address 0/GPIO4 46 IOA5 Inout, pull up Microcontroller address 0/GPIO5 47 IOA6 Inout, pull up Microcontroller address 0/GPIO6 48 IOA7 Inout, pull up Microcontroller address 0/GPIO7 49 A16 Outpu Flash address 16 50 A17 Output Flash address 17 51 IOA18 Inout Flash address 18 / GPIO10 52 IOA19 Inout Flash address 19 / GPIO11 53 IOA20 Inout Flash address20 / GPIO12 54 APLLVSS3 Ground Ground
Current reference input.it generate reference current for data PLL Connect an external 100K resistor to this pin and PLLVSS.
Tray open output,controlled by microcontroller. This is PWM output for TRWMEN TRWMEN27Hrw2=0
27hRW2=1 or is digital output for
9
PIN Symbol Type Description
55 APLLVDD3 Power 3.3V power 56 ALE Inout,pull up Microcontroller address latch enable 57 IOOE# Inout Flash output enable,active low /GPIO13 58 IOWR# Inout Flash write enable,active low /GPIO17 59 IOCS# Inout,pull up Flash chip select,active low /GPIO18 60 DVSS Ground Ground 61 UP1_2 Inout,pull up Microcontroller port 1-2 62 UP1_3 Inout,pull up Microcontroller port 1-3 63 UP1_4 Inout,pull up Microcontroller port 1-4 64 UP1_5 Inout,pull up Microcontroller port 1-5 65 UP1_6 Inout,pull up Microcontroller port 1-6 66 DVDD3 Power 3.3V power 67 UP1_7 Inout,pull up Microcontroller port 1-7 68 UP3_0 Inout,pull up Microcontroller port 3-0 69 UP3_1 Inout,pull up Microcontroller port 3-1 70 INT0# Inout,pull up Microcontroller interrupt 0,active low 71 IR Input IR control signal input 72 DVDD2 Power 2.5V power 73 UP3_4 Inout Microcontroller port 3-4 74 UP3_5 Inout Microcontroller port 3-5 75 UWR# Inout,pull up Microcontroller write strobe,active low 76 URD# Inout,pull up Microcontroller read strobe,active low 77 DVSS Ground Ground 78 RD7 Inout DRAM data 7 79 RD6 Inout DRAM data 6 80 RD5 Inout DRAM data 5 81 RD4 Inout DRAM data 4 82 DVDD2 Power 2.5V power 83 RD3 Inout DRAM data 3 84 RD2 Inout DRAM data 2 85 RD1 Inout DRAM data 1 86 RD0 Inout DRAM data 0 87 RWE# Output DRAM write enable,active low 88 CAS# Output DRAM column address strobe,active low 89 RAS# Output DRAM row address strobe,active low 90 RCS# Output DRAM chip select,active low 91 BA0 Output DRAM bank address 0 92 DVSS Ground Ground 93 RD15 Inout,pull up/down DRAM data 15 94 RD14 Inout,pull up/down DRAM data 14 95 RD13 Inout,pull up/down DRAM data 13 96 RD12 Inout,pull up/down DRAM data 12 97 DVDD3 Power Power3.3V 98 RD11 Inout,pull up/down DRAM data 11 99 RD10 Inout,pull up/down DRAM data 10
100 RD9 Inout,pull up/down DRAM data 9 101 RD8 Inout,pull up/down DRAM data 8 102 DVSS Ground Ground 103 CLK Output DRAM clock 104 CLE Output DRAM clock enable 105 RA11 Output DRAM address bit 11 or audio serial data 3 (channel 7/8) 106 RA9 Output DRAM address 9 107 RA8 Output DRAM address 8 108 DMVDD3 Power 3.3V power 109 DMVSS Ground Ground 110 RA7 Output DRAM address 7 111 DV33 Power 3.3V power 112 RA6 Output DRAM address 6 113 RA5 Output DRAM address 5
10
PIN Symbol Type Description
114 RA4 Output DRAM address 4 115 DVSS Ground Ground 116 DQM1 Output Mask for DRAM input/output byte 1 117 DQM0 Output Mask for DRAM input/output byte 0 118 BA1 Output DRAM bank address 0 119 RA10 Output DRAM address 10 120 DVDD2 Power 2.5V power 121 RA0 Output DRAM address 0 122 RA1 Output DRAM address 1 123 RA2 Output DRAM address 2 124 RA3 Output DRAM address 3 125 DVSS Ground Ground 126 RD31 Inout,pull up/down DRAM data 31 127 RD30 Inout,pull up/down DRAM data 30 128 RD29 Inout,pull up/down DRAM data 29 129 RD28 Inout,pull up/down DRAM data 28 130 DVDD3 Power 3.3V power 131 RD27 Inout,pull up/down DRAM data 27 132 RD26 Inout,pull up/down DRAM data 26 133 RD25 Inout,pull up/down DRAM data 25 134 RD24 Inout,pull up/down DRAM data 24 135 DVSS Ground Ground 136 DQM3 Output Mask for DRAM input/output byte 3 137 DQM2 Output Mask for DRAM input/output byte 2 138 RD23 Inout,pull up/down DRAM data 23 139 RD22 Inout,pull up/down DRAM data 22 140 DVDD2 Power 2.5V power 141 RD21 Inout,pull up/down DRAM data 21 142 RD20 Inout,pull up/down DRAM data 20 143 RD19 Inout,pull up/down DRAM data 19 144 RD18 Inout,pull up/down DRAM data 18 145 DVSS Ground Ground 146 RD17 Inout,pull up/down DRAM data 17 147 RD16 Inout,pull up/down DRAM data 16 148 ABCK Output Audio bit clock
149 ALRCK Input,pull down 150 DVDD3 Power 3.3V power
151 ACLK Inout Audio DAC master clock (384/256 audio sample frequency) 152 MC_DAT Input Microphone serial input 153 SPDIF Output SPDIF output 154 ASDATA0 Input,pull down Audio serial data 0 (left/right channel) 155 ASDATA1 Input,pull down Audio serial data 1 (surround left/surround right channel) 156 ASDATA2 Input,pull down Audio serial data 2 (center/LFE channel) 157 MUTE Output Audio Mute Signal 158 ASDATA4 Input,pull down Audio serial data 4 159 DACV33C Power 3.3V power 160 VREF output 161 FS 162 YUV0/CIN 163 DACVSSC Ground Ground 164 YUV1 Output Video data output bit 1 165 DACVDDB Power 3.3V Power 166 YUV2 Output Video data output bit 2 167 DACVSSB Ground Ground 168 YUV3/CVBS Output CVBS video output 169 DACV33A Power 3.3V power 170 YUV4/G Output Video data output bit 4 171 DACVSSA Ground Ground 172 YUV5/B Output Video data output bit 5
(1) Audio left/right channel clock (2)Trap value in power-on reset.
1:use external 373, 0:use internal 373
11
PIN Symbol Type Description
173 YUV6 Output Video data output bit 6 174 ICE Input,pull down Microcontroller ICE mode enable 175 FS1 output 176 VSYN Inout Vertical sync / GPIO16 177 YUV7 Output Video data output bit 7 178 DVSS Ground Ground 179 HSYN Inout Horizontal sync / GPIO15 182 DVDD2 Power 2.5V power 185 DVDD3 Power 3.3 power 186 XTALO Output Crystal output 187 XTALI Input Crystal input,27MHz 188 PRST Input,pull down Power on reset input, active high 189 DVSS Ground Ground 195 SDATA Output RF serial data input 196 SDEN Output RF serial data latch enable 197 SLCK Output RF serial clock output 198 BDO Input,pull down Flag of defect data status input 199 ADCVSS Ground Ground 200 ADIN Analog input General A/D input 202 TEZISLV Analog input Tracking error zero crossing low pass input 203 TEI Analog input Tracking error input 204 CSO Analog input Central servo input 205 FEI Analog input Focus error input 206 RFLEVEL Analog input Sub beam add input or RFRP low pass input 207 RFRP_DC Analog input RF ripple detect input 208 RFRP_AC Analog input RF ripple detect input (through AC coupling) 209 HRFZC Analog input High frequency RF ripple zero crossing 210 PWMVREF Analog input A reference voltage input for PWM circuitry.A typical value of 2.8v 211 PWM2VREF Analog input A reference voltage input for PWM circuitry.A typical value of 1.4v 212 ADCVDD3 Power 3.3V power 215 RFIN Analog input Negative input of RF differential signal 216 RFIP Analog input Positive input of RF differential signal
MT1336 GENERAL DESCRIPTION
MT1336 is a high performance CMOS analog front-end IC for both CD_ROM driver up to 48xs and DVD-ROM driver up to 16xs. It also supports DVD-RAM read up to 4xs Version 2. It contains servo amplifiers to generate focusing error, 3-beam tracking error, 1 beam radial push-pull signal, RF level and SBAD for servo functions. It also includes DPD tracking error signal for DVD_ROM application. For DVD-RAM disks, there are also Differential Push-Pull (DPP) method for generating tracking signal and Differential Astigmatic Detection (DAD) for processing focusing signal. Programmable equalizer and AGC circuits are also incorporated in this chip to optimize read channel performance. In addition, this chip has dual automatic laser power control circuits for DVD-ROM (DVD-RAM) and CD-ROM seperately and reference voltage generators to reduce external components. Programmable functions are implemented by the access of internal register through bi-directional serial port to configure modes selection.
FEATURES
. RF equalizer with programmable f . MT1336 supports at least eight different kinds of pick-up heads with versatile input configuration for both RF input stages and servo signal blocks. . Versatile on-line AGC. . 3 beams tracking error signal generator for CD_ROM application. . One beam differential phase tracking error (DPD) generator for DVD_ROM application. . Differential push pull tracking error (DPP) generator for DVD_RAM application.
from 3MHz to 70MHz and programmable boost from 3db to 13db.
c
12
. Focusing error signal generator for CD-ROM, DVD-ROM and DVD-RAM (DAD method). . RF level signal generator. . Sub-beam added signal for 3 beams CD_ROM. . One beam push-pull signal generator for central servo application. . High speed RF envelop detection circuit with bandwidth up to 400KHz for CD-ROM. . Defect and Blank detection circuits . Dual automatic laser power control circuits with programmable level of LD monitor voltage. . Vref-1.4V voltage and V2ref=2.8V voltage generators. . V20=2.0V voltage for pick-up head reference. . Bi-directional serial port to access internal registers. . 128-pin LQFP
Block Diagram…………………………………..P.3 Pin Assignment and Description………………..P.4-9 Functions
1.) RF Path Description………………….P. 10-13
2.) Servo Signal…………………………..P. 14-17 . Focusing Error . Central Servo . Tracking Error . RFLVL & SBAD (LVL)
3.) ALPC & RFRP ( RF Ripple)………….P. 18
4.) WOBBLE Detection…………………..P. 19
Command Access Timings………………………P. 20 Programmable I/O ………………………………P. 21 Register
1.) Register Map………………………….P. 22-24
2.) Register Description………………….P. 25-50
MT1336 PIN DESCRIPTIONS
Pin Numbers Symbol Type Description LQFP128
RF Flag interface
23 DEFECT Digital input Flag of bad data output status RF SIO interface 56 SCLK Digital input RF serial clock input 58 SDEN Digital input RF serial data enable 59 SDATA Digital IO RF serial data IO 60 RST Digital input Reset (active high) 55 XCK16M Digital input 16.9MHz for verification
RF SERVO interface
40 UDGATE Digital input Control signal for DVD-RAM 41 IDGATE Digital input Control signal for DVD-RAM 38 VFO13 Digital input DVD-RAM Header signal
RF
100 DVDA Analog input AC coupled DVD RF signal input A 99 DVDB Analog input AC coupled DVD RF signal input B 98 DVDC Analog input AC coupled DVD RF signal input C 97 DVDD Analog input AC coupled DVD RF signal input D 95 DVDRFIN Analog input AC coupled DVD RF signal input RFIN
13
96 DVDRFIP Analog input AC coupled DVD RF signal input RFIP 94 CDA Analog input AC coupled CD RF signal input A 93 CDB Analog input AC coupled CD RF signal input B 92 CDC Analog input AC coupled CD RF signal input C 91 CDD Analog input AC coupled CD RF signal input D 90 OSN Analog RF Offset cancellation capacitor connection 89 OSP Analog RF Offset cancellation capacitor connection 85 CEQP Analog RF Offset cancellation capacitor connection 84 CEQN Analog RF Offset cancellation capacitor connection 88 RFGC Analog RF AGC loop capacitor connecting for DVD-ROM 87 RFGCU Analog RF AGC loop capacitor connecting for DVD-ROM 86 RFGCI Analog RF AGC loop capacitor connecting for DVD-ROM 101 MA Analog input DC coupled DVD-RAM main-beam RF signal input A 102 MB Analog input DC coupled DVD-RAM main-beam RF signal input B 103 MC Analog input DC coupled DVD-RAM main-beam RF signal input C 104 MD Analog input DC coupled DVD-RAM main-beam RF signal input D 105 SA Analog input DC coupled DVD-RAM sub-beam RF signal input A 106 SB Analog input DC coupled DVD-RAM sub-beam RF signal input B 110 SC Analog input DC coupled DVD-RAM sub-beam RF signal input C 111 SD Analog input DC coupled DVD-RAM sub-beam RF signal input D 108 IR Analog External current bias resistor (R=20K) 119 AGC1 Analog Wobble AGC loop1 capacitor 121 AGC2 Analog Wobble AGC loop2 capacitor 122 AGC3 Analog Wobble AGC loop3 capacitor 127 RFSUBO Analog output Header push-pull RF output signal 1 WOBSO Analog output Wobble signal output 6 RFOP Analog output RF positive output 7 RFON Analog output RF negative output TRACKING ERROR 32 DPFN Analog DPD amplifier negative input 33 DPFO Analog DPD amplifier output 61 DPDMUTE Digital input DPD mute control input 116 TNI Analog input 3 beam satellite PD signal negative input 115 TPI Analog input 3 beam satellite PD signal positive input 21 TEO Analog Output Tracking error output
FOCUSING ERROR & RF LEVEL & CENTRAL SERVO SIGNAL
112 CDFOP Analog input CD focusing error positive input 113 CDFON Analog input CD focusing error negative input 18 FEO Analog output Focusing error output 19 LVL Analog output RF level output 20 CSO Analog output Central servo signal output ALPC 124 MDI1 Analog input Laser power monitor input 125 LDO1 Analog Output Laser driver output 123 MDI2 Analog input Laser power monitor input 126 LDO2 Analog Output Laser driver output
RF RIPPLE
26 CRTP Analog RF top envelop filter capacitor connecting 27 CRTPLP Analog Defect level filter capacitor connecting 25 HRFRP Analog output High frequency RF ripple output or Blank detector’s output 24 LRFRP Analog output Low frequency RF ripple output POWER 67,69 AVDD Power Master PLL Filter power 65,73 AGND GND GND for Master PLL Filter 64 AVDD Power DPD Power 62 AGND GND DPD GND 109 AVDD Power RF path Power 107 AGND GND RF path GND 114 SVDD Power Servo Power 117 SGND GND Servo GND 2,120 WAVDD Power Wobble Power
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128,118 WAGND GND Wobble GND 5 AVDDO Power Power for RF output 8 AGNDO GND GND for RF output 14 AVDDT Power Power for trimming PAD 12 AGNDT GND GND for trimming PAD 22 VDDP Power Peak Detection Power 31 GNDP GND Peak Detection GND 37,54 VDD Power Serial I/O Power 39,57 GND GND Serial I/O GND REFERENCE VOLTAGE 16 VREFO Analog output Reference voltage 1.4V 15 V2REFO Analog output Reference voltage 2.8V 17 V20 Analog output Reference voltage 2.0V
ALPC TRIMMING
9 TM1 Analog input Trimming pin for ALPC1 10 TM2 Analog input Trimming pin for ALPC1 11 TM3 Analog input Trimming pin for ALPC2 13 TM4 Analog input Trimming pin for ALPC2 HIGH SPEED TRACK COUNTING 29 TRLP Analog Low-pass filter capacitor connecting 28 TRLPA Analog Low-pass filter capacitor connecting 30 HTRC Digital output High speed track counting digital output PCS 74 HALLSIN Analog input Negative input of amplifier for hall sensor signal 75 REFSIN Analog input Positive input of amplifier for hall sensor signal 76 SINPHI Analog output Amplifier output for hall sensor signal 71 HALLCOS Analog input Negative input of amplifier for hall sensor signal 72 REFCOS Analog input Positive input of amplifier for hall sensor signal 70 COSPHI Analog output Amplifier output for hall sensor signal
FOR MONITOR ONLY
81 MON Analog output 80 MOP Analog output 66 VCON Analog output 77 SWO Analog output Output from mux of SW1 & SW2 78 SW2 Analog input External input for servo input select 79 SW1 Analog input External input for servo input select FOR SERIAL I/O 42 IO0 43 IO1 44 IO2 45 IO3 46 IO4 47 IO5 48 IO6 49 IO7 50 IO8 51 IO9 52 IOA 53 IOB

2-1-4 20-Pin, 24-Bit, 96kHz Stereo D/A with Volume Control (WM8720)

Features
Performance:
-102dB SNR (‘A’ weighted @48kHz),
-THD: -95dB @ 0dB FS
5V or 3.3V supply operation
Sampling frequency: 8kHz to 96kHz
Input data word: 16 to 24-bit
Hardware or SPI compatible serial port control
modes:
-Hardware mode:system clock, reset, mute, de-emphasis
-Serial control mode: mute, de-emphasis, digital attenuation(256 steps), zero mute, phase reversal, power down
Compatible with PCM1720
15
Description
The WM820 is a high performance stereo DAC designed for audio applications such as CD, DVD, home theatre systems, set top boxes and digital TV. The WM8720 supports data input word lengths from 16 to 24-bits and sampling rates up to 96kHz. The WM8720 consists of a serial interface port, digital interpolation filter, multi-bit sigma delta modulator and stereo DAC in a small 20-pin SSOP package. The WM8720 also includes a digitally controllable mute and attenuator function on each channel.
The WM8720 supports a variety of connection schemes for audio DAC control. The SPI-compatible serial control port provides access to a wide range of
BLOCK DIAGRAM
features including on-chip mute, attenuation and phase reversal. A hardware controlllable interface is also available.
The programmable data input port supports a variety of glueless interfaces to popular DSPs, audio decoders and S/PDIF and AES/EBU receivers.
APPLICATIONS
. CD, DVD audio . Home theare systems . Set top boxes . Digital TV
PIN DESCRIPTIONS
PIN NAME TYPE DESCRIPTION 1 PWDN Digital input Powerdown control; low is ON, high is POWER OFF, Interal pull-down. 2 SCKI Digital input System clock input(256 or 384fs). 3 TEST Digital output Reserved. 4 ML/I2S Digital input Latch enable (software mode) or input format selection (hardware mode)
Internal pull-up.
5 MC/IWL Digital input Serial control data clock input (software mode) or input word length
selection (hardware mode). Internal pull-up.
6 MD/DM Digital input Serial control data input (software mode) or de-emphasis selection
(hareware mode). Internal pull-up.
7 RSTB Digital input Reset input-active low. Internal pull-up.
16
8 ZERO Digital output Infinite zero detect-active low. Open drain type output with active
pull-down. 9 VOUTR Analogue output Right channel DAC output. 10 AGND Supply Analogue ground supply. 11 AVDD Supply Analogue positive supply. 12 VOUTL Analogue output Left channel DAC output. 13 CAP Analogue output Analogue internal reference. 14 BCKIN Digital input Audio data bit 15 DIN Digital input Serial audio data input. 16 LRCIN Digital input Sample rate clock input. 17 MUTE Digital IO Mute control pin, input or automute output.
Low is not mute, high is mute, Z is automute. 18 MODE Digital input Mode select pin. Low is software mode, high is hardware control.
Internal pull-down. 19 DVDD Supply Digital positive supply. 20 DGND Supply Digital ground supply.
Note: Digital input pins have Schmitt trigger input buffers.

2-1-5 Serial EEPROM, 2K (256 x 8) (24C16)

* Features
Low-Voltage and Standard-Voltage Operation
-5.0 (V CC = 4.5V to 5.5V)
-2.7 (V CC = 2.7V to 5.5V)
-2.5 (V CC = 2.5V to 5.5V)
-1.8 (V CC = 1.8V to 5.5V)
Internally Organized 128 x 8 (1K), 256 x 8 (2K), 512 x 8 (4K), 1024 x 8 (8K) or 2048 x 8 (16K) 2-Wire Serial Interface Schmitt Trigger, Filtered Inputs for Noise Suppression Bi-directional Data Transfer Protocol 100 kHz (1.8v, 2.5V, 2.7V) and 400 kHz (5V) Compatibility Write Protect Pin for Hardware Data Protection 8-Byte Page (1K, 2K), 16-Byte Page (4K, 8K, 16K) Write Modes Partial Page Writes Are Allowed Self-Timed Wr ite Cycle (10 ms max) High Reliability
- Endurance: 1 Million Write Cycles
- Data Retention: 100 Years
- ESD Protection: >3000V
Automotive Grade and Extended Temperature Devices Available 8-Pin and 14-Pin JEDEC SOIC, 8-Pin PDIP, 8-Pin MSOP, and 8-Pin TSSOP Packages
* Pin Configurations
* Pin Description
Pin Name Function
17
A0-A2 Address Inputs SDA Serial Data SCL Serial Clock input WP Write Protect NC No Connect
2-1-6 8M-BIT [1Mx8/512Kx16] CMOS FLASH MEMORY
FEATURES
• 1,048,576 x 8/524,288 x 16 switchable
• Single power supply operation
- 5.0V only operation for read, erase and program
tion
opera
• Fast access time: 70/90/120ns
• Low power consumption
- 50mA maximum active current
- 0.2uA typical standby current
• Command register architecture
- Byte/word Programming (7us/12us typical)
- Sector Erase (Sector structure 16K-Bytex1, 8K-Bytex2, 32K-Bytex1, and 64K-Byte x15)
• Auto Erase (chip & sector) and Auto Program
- Automatically erase any combination of sectors with
Erase Suspend capability.
- Automatically program and verify data at specified
address
• Erase suspend/Erase Resume
- Suspends sector erase operation to read data from, or program data to, another sector that is not being erased, then resumes the erase.
• Status Reply
- Data polling & Toggle bit for detection of program and erase operation completion.
• Ready/Busy pin (RY/BY)
- Provides a hardware method of detecting program or erase operation completion.
• Sector protection
- Sector protect/chip unprotect for 5V/12V system.
- Hardware method to disable any combination of sectors from program or erase operations
- Tempory sector unprotect allows code changes in previously locked sectors.
• 100,000 minimum erase/program cycles
• Latch-up protected to 100mA from -1V to VCC+1V
• Boot Code Sector Architecture
- T = Top Boot Sector
- B = Bottom Boot Sector
• Low VCC write inhibit is equal to or less than 3.2V
• Package type:
- 44-pin SOP
18
- 48-pin TSOP
• Compatibility with JEDEC standard
- Pinout and software compatible with single-power supply Flash
19

2-1-7 512K X 16 Bit X 2 Banks Synchronous DRAM (A43L0616)

Features
JEDEC standard 3.3V power supply LVTTL compatible with multiplexed address Dual banks / Pulse RAS MRS cycle with address key programs
- CAS Latency (2,3)
- Burst Length (1,2,4,8 & full page)
- Burst Type (Sequential & interleave)
All inputs are sampled at the positive going edge of the system clock Burst Read Single-bit Write operation DQM for masking Auto & self refresh 64ms refresh period (4K cycle) 50 Pin TSOP (II)
Pin Configuration
20
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