Samsung DVD-611B Service Manual

DVD PLAYER
DVD-611/611B/615 DVD-511
SERVICE
1. Precautions
2. Reference Information
3. Product Specification
4. Disassembly and Reassembly
6. Troubleshooting
7. Exploded Views and Parts List
8. Electrical Parts List
9. Block Diagrams
10. PCB Diagrams
11. Wiring Diagram
12. Schematic Diagrams
Manual
DVD PLAYER CONTENTS
SERVICE MANUAL DVD-611/611B/615/511
OPEN/ CLOSE
SKIPSTOPPLAY/PAUSE
OPEN/CLOSE
DIGITAL VIDEO
STANDBY/ON
DIGITAL VIDEO
OPEN/ CLOSE
SKIPSTOPPLAY/PAUSE
OPEN/CLOSE
STANDBY/ON
DVD-611/611B/615
DVD-511
ELECTRONICS
© Samsung Electronics Co., Ltd. APR. 2000
Printed in Korea
AH68-00462A
Samsung Electronics 1-1
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 openings 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 a 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 any 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. See Fig. 1-1.
Any measurements not within the limits specified herein indicate a potential shock hazard that must be eliminated before returning the instrument to the customer.
Fig. 1-1 AC Leakage Test
(4) Insulation Resistance Test Cold Check-(1) Unplug
the power supply cord and connect a jumper wire 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. See Fig. 1-2.
Fig. 1-2 Insulation Resistance Test
DEVICE UNDER
TEST
(READING SHOULD
NOT BE ABOVE
0.5mA)
LEAKAGE CURRENT
TESTER
EARTH
GROUND
TEST ALL
EXPOSED METER
SURFACES
ALSO TEST WITH
PLUG REVERSED
(USING AC ADAPTER
PLUG AS REQUIRED)
2-WIRE CORD
Antenna Terminal
Exposed Melal Part
ohm
ohmmeter
Precautions
1-2 Samsung Electronics
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 therefrom.
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 any 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 ( )or a ( )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.
Precautions
Samsung Electronics 1-3
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 unforseen 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 Servicing Precautions
(1) a. Always unplug the instrument’s AC power cord
from the AC power source before (1) re-moving 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 inter-
locks 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. Components i-enti­fied by shading, by( ) or by ( ) in the 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 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 plug and accessible conductive parts.
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.
Precautions
1-4 Samsung Electronics
1-3 ESD Precautions
Electrostatically Sensitive Devices (ESD)
Some semiconductor (solid state) devices can be dam­aged easily by static electricity. Such components 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 should be used to help reduce the incidence of component damage caused by static electricity.
(1) Immediately before handling any semiconductor
component 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 devices.
(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 your are ready to install it.(Most replacement ESD devices are packaged with leads electrically short­ed together by conductive foam, aluminum foil or comparable conductive materials).
(7) Immediately before removing the protective ma-
terials from the leads of a replacement ESD 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 unpack-
aged 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).
Precautions
Samsung Electronics 1-5
1-4 Handling the optical pick-up
The laser diode in the optical pick up may suffer elec­trostatic breakdown because of potential static elec­tricity from clothing and your body.
The following method is recommended. (1) Place a conductive sheet on the work bench (The
black sheet used for wrapping repair parts.)
(2) Place the set on the conductive sheet so that the
chassis is grounded to the sheet.
(3) Place your hands on the conductive sheet(This
gives them the same ground as the sheet.)
(4) Remove the optical pick up block
(5) Perform work on top of the conductive sheet. Be
careful not to let your clothes or any other static sources to touch the unit.
Be sure to put on a wrist strap grounded to the
sheet.
Be sure to lay a conductive sheet made of copper etc.
Which is grounded to the table.
Fig.1-3
(6) Short the short terminal on the PCB, which is in-
side the Pick-Up ASS’Y, before replacing the Pick­Up. (The short terminal is shorted when the Pick­Up Ass’y is being lifted or moved.)
(7) After replacing the Pick-up, open the short termi-
nal on the PCB.
THE UNIT
WRIST-STRAP FOR GROUNDING
1M
1M
CONDUCTIVE SHEET
Precautions
1-6 Samsung Electronics
1-5 Pick-up disassembly and reassembly
1-5-1 Disassembly
1) Remove the power cable.
2) Switch SW3 on deck PCB to “OFF” before removing the FPC. ( Inserted into Main PCB DCN1. See Fig. 1-4)
3) Disassemble the deck.
4) Disassemble the deck PCB.
1-5-2 Assembly
1) Replace the Pick-up.
2) Assemble the deck PCB.
3) Reassemble the deck.
4) Insert FPC into Main PCB DCN1 and switch SW3 on deck PCB to “ON”. (See Fig 1-4)
FPC
TO MAIN PCB
(DCN1)
Note : If the assembly and disassembly are not done in correct sequence, the Pick-up may be damaged.
Fig. 1-4
Samsung Electronics 2-1
2. Reference Information
2-1 IC Descriptions
2-1-1 AIC1 (AK4393 ; Digital-to-Analog Converter)
Serial
Input
Interface
De-emphasis
Control
De-emphasis
Soft Mute
De-emphasis
Soft Mute
Left Channel
Right Channel
8X
Interpolator
8X
Interpolator
Multi-bit ˘•
Modulator
Multi-bit ˘•
Modulator
Switched
Capacitor Filter
Switched
Capacitor Filter
Control
Register
Double
Speed Select
Soft Mute
Power Down
Serial Data
Bit Clock
Left/Right Clock
Serial
Input Control
Clock Divider
Master Clock Clock Control
Left Output -
Left Output +
Right Output -
Right Output +
DVSS DVDD MCLK
PD
BICK
SDATA
LRCK
SMUTE
DFS DEM0 DEM1
DIF0
1 2 3 4 5 6 7 8 9 10 11 12
DIF1
13
DIF2
CKS2 CKS1 CKS0 P/S VCOM AOUTL+ AOUTL­AOUTR+ AOUTR­AVSS AVDD VREFH VREFL BVSS
14
28 27 26 25 24 23 22 21 20 19 18 17 16 15
No. Pin Name I/O Pin Function and Description
1 DVSS - Digital Ground. Digital ground is 0V. 2 DVDD - Digital Supply. 3.3V or 5.0V nominal. 3 MCLK I Master Clock Input. 4 PD I Power-down and Reset. When low the AK4393 is in Power-down Mode and held in reset.
The AK4393 should always be reset after power-up. 5 BICK I Audio Serial Data Clock Input. A clock input of 64fs or more is recommended. 6
SDATA I
Serial Data Input. 7 LRCK I Left/Right Clock Input. Defines the sampling rate, F
s
.
8 SMUTE
(or CS
)
I Soft Mute Input or Chip Select Input. If the P/S
pin (pin 25) is high, SMUTE controls the
soft mute function as follows:
- When SMUTE goes high, the soft mute cycle is initiated.
- When SMUTE goes low, the output mute is slowly released.
If the P/S
pin is low, SMUTE is the Chip Select Input for the Serial Control Mode. Chip
select is active when SMUTE is low. 9 DFS I Double Sampling Speed Input. When low, this pin defines the Normal Speed Mode, and
128 x F
s
oversampling is implemented. When high, the DFS pin defines the Double Speed
Mode, implemented with 64 x F
s
oversampling. This pin features an internal pull-down.
10 DEM0
(or CCLK)
I De-emphasis Enable #0 or Control Data Clock Input. If the P/S
pin (pin 25) is high, DEM0 is used to select the De-emphasis Mode according to Table 3. If the P/S pin os low DEM0 is the clock input for the Serial Control Mode.
11 DEM1
(or CDTI)
I De-emphasis Enable #1 or Control Data Input. If the P/S
pin (pin 25) is high, DEM1 is used to select the De-emphasis Mode according to Table 3. If the P/S pin is low, DEM1 is the control data input for the Serial Control Mode.
12 DIF0 I Digital Input Format Select #0. 13 DIF1 I Digital Input Format Select #1. 14 DIF2 I Digital Input Format Select #2. 15 BVSS - Substrate Ground Pin. Substrate ground is 0V. 16 VREFL I Low Level Voltage Reference Input. Normally connected to analog ground. 17 VREFH I High Level Voltage Reference Input. Normally connected to analog supply. 18 AVDD - Analog Supply. Analog supply is 5V nominal. 19 AVSS - Analog Ground. Analog ground is 0V. 20 AOUTR- O Right Channel Negative Output. 21 AOUTR+ O Right Channel Positive Output. 22 AOUTL- O Left Channel Negative Output.
23 AOUTL+ O Left Channel Positive Output. 24 VCOM O Common Voltage Output. Common voltage output is 2.6V nominal. 25 P/S
I Parallel/Serial Control Mode Select Input. If Low, the Serial Control Mode is
implemented. If High, the Parallel Control Mode is selected. This pin has an internal pull-up.
26 CKS0 I Master Clock Select #0. 27 CKS1 I Master Clock Select #1. 28 CKS2 I Master Clock Select #2.
Reference Information
2-2 Samsung Electronics
2-1-2 DIC1 (KS1453 ; Data Processor)
DVD CLV/CAV
16-8
DEMO D
32BIT SR
X-tal & Timing
Generator
Frame Sync
DET/PROT /INS
(17.57KHz)
VCO Timing
Generator
MICOM I/F
(208,192,17)
(182,172,11)
ECC
Descrambler
(6,4,3)
efmwr ID ECC
EDC
17.58KHz= 26.16M/1488
RFCK 17.58/7.35KHz
26.16MHz
676.08Hz
To MICOM (15)
MDAT[7:0]_BI, MRZA_IN, ZCS_IN, MWR_IN,
MRD_IN, ZIRQZD_OUT, ZWAIT_OUT, ZRST_IN
To DRAM
256K*16
(32)
DD[15:0]_BI
DADR[8:0]_OUT
ZRAS_OUT
ZUCAS_OUT
ZLCAS _ OUT
ZOE[1 :0]_OUT
ZWE[1:0]_OUT
To AV (13)
SDATA[0]_OUT/
CDATA
SDATA[1]_OUT/LRCK
SDATA[2]_OUT/BCLK
SDATA[3]_OUT/C2PO
SDATA[4]_OUT/SQDT
SDATA[5]_OUT/WFSY
SDATA[6]_OUT/S0S1
SDATA[7]_BI /SQCK
DATREQ_IN
CSTROBE_OUT
DTER_OUT
DATACK_OUT
TOS_OUT
Mon i tor (9)
GFS_OUT, F R SYZ_OUT, TX_ OUT, EFMO_ OUT,
WFCK_OUT, RFCK_OUT, CK16M_OUT, DEMPHA_OUT
CLVLOCK_OUT
ECSY
CD CLV/CAV
23BIT SR
Frame Sync
DET/PROT /INS
(7.35KHz)
VCO Timing
Generator
M
M
WFCK 17.58/7.35KHz
(32,28,5)
(28,24,5)
CIRC
EFM
DEMO D
SUBCO DE I/F
75Hz
M
7.35KHz= 4.3 218M/588
DVDP ,
SQ-VCD
CD-G
(6,4,3)
trans ID E CC
Deinterle ave
&
RAM Control
M
V-CD ,CD-DA
To RF (9)
PWMO[ 7:0]_OUT, BCARZ_IN
Pow er (34)=VDD(11)+GND(23)
Test Pin (3
)
TEST0_IN, TEST1_IN, TEST2_IN
Fr om
Servo (3)
EFMI_IN
PLCK_IN
FG_IN
To
Servo (6)
MON_OUT
MDP_OUT
MDS_OUT
FSW_OUT
PLLLOCK_
OUT
SERLOCK_
OUT
X-t al (4)
XTI_IN
XTO_OUT
CK33MI_IN
CK33MO_OUT
Reference Information
Samsung Electronics 2-3
No. Pin Name Description I/O Notes
Notes
1 DVSS Digital GND (0 V)
2 ZCS_IN Chip Select (Active Low) I MICOM
3 MRZA_IN Micom Register Select (L
REGISTER H DATA) I MICOM
4 DVSS Digital GND (0 V)
5 MDAT7_BI MICOM Data Bus B MICOM
6 MDAT6_BI MICOM Data Bus B MICOM
7 MDAT5_BI MICOM Data Bus B MICOM
8 MDAT4_BI MICOM Data Bus B MICOM
9 MDAT3_BI MICOM Data Bus B MICOM
10 MDAT2_BI MICOM Data Bus B MICOM
11 MDAT1_BI MICOM Data Bus B MICOM
12 MDAT0_BI MICOM Data Bus B MICOM
13 DVDD Digital Power (+5V)
14 XTI_IN System Clock Input for 26.16 MHz I XTAL
15 XTO_OUT System Clock Output for 26.16 MHz O XTAL
16 DVSS Digital GND (0 V)
17 DD15_BI DRAM Data Bus B DRAM
18 DD0_BI DRAM Data Bus B DRAM
19 DD14_BI DRAM Data Bus B DRAM
20 DD1_BI DRAM Data Bus B DRAM
21 DVSS Digital GND (0 V)
22 DD13_BI DRAM Data Bus B DRAM
23 DD2_BI DRAM Data Bus B DRAM
24 DD12_BI DRAM Data Bus B DRAM
25 DD3_BI DRAM Data Bus B DRAM
26 DVDD Digital Power (+5 V)
27 DD11_BI Digital Data Bus B DRAM
28 DD4_BI Digital Data Bus B DRAM
29 DD10_BI Digital Data Bus B DRAM
30 DD5_BI Digital Data Bus B DRAM
31 DVSS Digital GND (0 V)
32 DD9_BI DRAM Data Bus B DRAM
33 DD6_BI DRAM Data Bus B DRAM
34 DD8_BI DRAM Data Bus B DRAM
35 DD7_BI DRAM Data Bus B DRAM
36 DVSS Digital GND (0 V)
37 ZLCAS_OUT DRAM Low Column Address Strobe O DRAM
38 ZUCAS_OUT DRAM Upper Column Address Strobe O DRAM
39 ZWE1_OUT DRAM Write Enable 1 (8M ONLY) O DRAM
40 ZWE0_OUT DRAM Write Enable 0 (4M, 8M, 16M) O DRAM
41 ZOE1_OUT DRAM Output Enable 1 (16M MODE DADR9) O DRAM
42 DVDD Digital Power (+5 V)
43 ZOE0_OUT DRAM Output Enable 0 O DRAM
44 ZRAS_OUT DRAM Row Address Strobe O DRAM
45 DADR8_OUT
DRAM Address Bus
O DRAM
65 SDATA5_OUT DVD Data/Subcode Frame Sync (WFSY) O AV Decoder
66 SDATA6_OUT DVD Data/Subcode Block Sync (S0S1) O AV Decoder
67 SDATA7_BI DVD Data/Subcode Serial Clock (SQCK) B AV Decoder
68 DVSS Digital GND (0 V)
69 CSTROBE_OUT Data Strobe (Clock) Output O AV Decoder
70 DATREQ_IN Data Request from A/V Decoder or ROM Decoder I AV Decoder
71 DTER_OUT DVD Data Error Output O AV Decoder
72 DVSS Digital GND (0 V)
73 PWMO7_OUT PWM Output Signal O RF
74 PWMO6_OUT PWM Output Signal O RF
75 PWMO5_OUT PWM Output Signal O RF
76 PWMO4_OUT PWM Output Signal O RF
77 DVDD Digital Power (+5 V)
78 PWMO3_OUT PWM Output Signal O RF
79 PWMO2_OUT PWM Output Signal O RF
80 PWMO1_OUT PWM Output Signal O RF
81 PWMO0_OUT PWM Output Signal O RF
82 DVSS Digital GND (0 V)
83 DVSS Digital GND (0 V)
84 DVSS Digital GND (0 V)
85 DVDD DIGITAL Power (+5 V)
86 DVDD DIGITAL Power (+5 V)
87 DVSS Digital GND (0 V)
88 DVSS Digital GND (0 V)
89 DVSS Digital GND (0 V)
90 DVSS Digital GND (0 V)
91 FRSYZ_OUT Frame Sync Out O Monitor
92 TX_OUT Digital Out O Monitor
No. Pin Name Description I/O
46 DADR7_OUT DRAM Address Bus O DRAM
47 DVSS Digital GND (0 V)
48 DADR0_OUT DRAM Address Bus O DRAM
49 DADR6_OUT DRAM Address Bus O DRAM
50 DADR1_OUT DRAM Address Bus O DRAM
51 DADR5_OUT DRAM Address Bus O DRAM
52 DADR2_OUT DRAM Address Bus O DRAM
53 DADR4_OUT DRAM Address Bus O DRAM
54 DADR3_OUT DRAM Address Bus O DRAM
55 DVSS Digital GND (0 V)
56 DVSS Digital GND (0 V)
57 TOS_OUT Top of Sector O AV Decoder
58 DATACK_OUT Data Acknowledge Signal Output O AV Decoder
59 DVDD DIGITAL Power (+5 V)
60 SDATA0_OUT DVD Data/CD Data Bit Stream (CDATA) O AV Decoder
61 SDATA1_OUT DVD Data/CD Data L/R Clock (LRCK) O AV Decoder
62 SDATA2_OUT DVD Data/CD Data Bit Clock (BLCK) O AV Decoder
63 SDATA3_OUT DVD Data/CD Data Error Flag (C2PO) O AV Decoder
64 SDATA4_OUT DVD Data/Subcode Serial Data (SQDT) O AV Decoder
93 GFS_OUT Good Frame Sync Detection State Output (OK at H) O Monitor
94 DVSS Digital GND (0 V)
95 CK33MI_IN System Clock Input for 33.8688 MHz I X-tal
96 CK33MO_OUT System Clock Output for 33.8688 MHz O X-tal
97 DVDD Digital Power (+5 V)
98 TEST0_IN Test Mode Selection Terminal I
99 TEST1_IN Test Mode Selection Terminal I
100 TEST2_IN Test Mode Selection Terminal I
101 EFMO_OUT EFM Out O Monitor
102 WFCK_OUT Write Frame Pulse O Monitor
103 RFCK_OUT Reference Frame Pulse O Monitor
104 PLCK_IN Phase Locked Clock I Servo
105 DVSS Digital GND (0 V)
106 PLLLOCK_OUT Lock Signal for PLL O Servo
107 CLVLOCK_OUT Lock Signal for CLV O Monitor
108 SERLOCK_OUT Lock Signal for SERVO O Servo
109 MDP_OUT Spindle Motor Phase Control Signal (3-STATE) O Servo
110 MDS_OUT Spindle Motor Speed Control Signal (3-STATE) O Servo
111 DVSS Digital GND (0 V)
11 2 DVSS Digital GND (0 V)
11 3 MON_OUT Spindle Motor Output Filter Switching Output O Servo
114 FG_IN Reference Signal for CAV I Servo
11 5 FSW_OUT Spindle Motor Output Filter Switching Output (3-STATE) O Servo
11 6 EFMI_IN EFM/EFM+ Signal Input I Servo
117 DVDD Digital Power (+5 V)
118 DVDD Digital Power (+5 V)
119 DVDD Digital Power (+5 V)
120 CK16M_OUT CK33Ms 2 Division Clock / 16.9344 MHz O Monitor
121 DEMPHA_OUT HIGH, when on Deemphasis O Monitor
122 BCARZ_IN BCA Input Signal I RF
123 DVSS Digital GND (0 V)
124 ZRST_IN Hardware Reset (Active Low) I MICOM
125 ZWAIT_OUT Micom Read / Write Access Wait (Wait at L) O MICOM
126 ZIRQZD_OUT Interrupt Request to Micom O MICOM
127 MRD_IN Micom Read Strobe (Active Low) I MICOM
128 MWR_IN Micom Write Strobe (Active Low) I MICOM
Notes
Reference Information
2-4 Samsung Electronics
2-1-3 DIC2 (KM416C254D ; CMOS 4M DRAM)
WE
CASL CAS
CASH
D0 D1
D2 D3 D4
D5 D6
D7 D8
RAS
NO.2 CLOCK
GENERATOR
CONTROL
LOGIC
COLUMN
DECODER
SENSE AMPLIFIERS
VO GATING
ROW
DECODER
512x512x16
MEMORY
ARRAY
512
512
DATA-IN BUFFER
DATA-OUT
BUFFER
REFRESH
CONTROLLER
REFRESH COUNTER
NO.1CLOCK
GENERATOR
ROW.
ADDRESS
BUFFERS(9)
COLUMN
ADDRESS
BUFFER
OE
Vcc Vss
IO0
IO15
16
9
88
99
9
9
16
512x16
Reference Information
Samsung Electronics 2-5
PIN NO. SYM. TYPE DESCRITION
16~19, 22~26 A0~A8 Input Address Input
14 RAS Input Row Address Strobe 28 CASH Input Column Address Strobe/Upper Byte Control 29 CASL Input Column Address Strobe/Lower Byte Control 13 WE Input Write Enable 27 OE Input Output Enable
2~5, 7~10, 31~34, 36~39 I/O0~I/O15 Input/Output Data Input/Output
1, 6, 20 Vcc Supply Power, 5V
21, 35, 40 Vss Ground Ground
11, 12, 15, 30 NC - No Connect
Reference Information
2-6 Samsung Electronics
2-1-4 MIC1 (TMP95C265 ; Main Micom)
AND~AN2
(PA0~PA2)
AN3/ADTRG
(PA3)
AN4~AN7
(PA4~PA7)
VREFH
VREFL
AVCC
AV55
TxD0(P80)
RxD0(P81)
SCLK0/CT50(P82)
TxD1(P83)
RxD1(P84)
SCLK1/CT51(P85)
TxD2(P86)
RxD2(P87)
SCLK2/CT52(P57)
DAOUT0,1
10BIT 8CH
A/D
CONVERTER
8BIT 2CH
A/D
CONVERTER
SERIAL I/O
(CH. 1)
SERIAL I/O
(CH. 0)
SERIAL I/O
(CH. 2)
8BIT TIMER
(TIMER 0)
8BIT TIMER
(TIMER 1)
8BIT TIMER
(TIMER 2)
8BIT TIMER
(TIMER 3)
8BIT TIMER
(TIMER 4)
8BIT TIMER
(TIMER 5)
8BIT TIMER
(TIMER 6)
8BIT TIMER
(TIMER 7)
Not included in
TMP95C265
64KB ROM
2KB ROM
WATCHDOG
TIMER
PC
SR
XWA XBC XDE XHL XIX XIY XIZ XSP
W
900/H CPU
A
BC DE
H
IX
OSC
PORT0
PORT1
PORT2
PORT3
PORT4
PORT5
CS/WAIT
CONTROLLER
(4-BLOCK)
INTERRUPT
CONTROLLER
16BIT TIMER
(TIMER 8)
16BIT TIMER
(TIMER 9)
IY IZ
SP
L
32bit
F
VCC [3] VSS[3]
X1 X2
(P00~P07) D0~D7 *
(P10~P17) D8~D15
(P20~P27) A15~A23 *
(P30~P37) A8~A15 *
(P40~P47) A0~A7 *
WAIT(P55) C50(P60) C51(P61) C52(P62) C53(P63)
T18/INT5(P90) T19/INT6(P91) TO8(P92) TO9(P93) TIA/INT7(P94) TIB/INT8(P95) TOA/TOB(P96)
NIMI INTO(P56)
RD(P50)* WR(P51)* HWR(P52) BUSRQ(P53) BUSAK(P54)
CLK AM8/16 EA RESET
T10/INT(P70)
TO3/INT2(P72)
T14/INT3(P73)
TO7/INT4(P75)
TO1(P71)
TO5(P74)
Reference Information
Samsung Electronics 2-7
NO PORT NAME ASSIGNED NAME DESCRIPTION TYPE REMARK
51 D6 HAD6 Data6 I/0
52 D7 HAD7 Data7 I/0
53 P10 CLSW Close Switch I DECK
54 P11 OPSW Open Swithc I DECK
55 P12 MTP8 Reserved I/0 0 NC
56 P13 MTP9 Reserved I/0 0 NC
57 P14 MTP10 Reserved I/0 0 NC
58 P15 MTP11 Reserved I/0 0 NC
59 P16 MTP12 Reserved I/0 0 NC
60 P17 MTP13 Reserved I/0 0 NC
61 AM8/16 AM8 Address Mode(H:8 BIT MODE) I VCC
62 Vss DGND - GND
63 Vcc 5D - VCC
64 A23 HA23
SERVO /RD Strobe Mask Signal
0 74HCOO(5)
65 P26/A22 MRP14 Reserved Address Port 0 NC
66 P25/A21 MRP15 Reserved Address Port 0 NC
67 P24/A20 MRP16 Reserved Address Port 0 NC
68 A19 HA19 Address 19 0
EPROM, SRAM ADDRESS
69 A18 HA18 Address 18 0
EPROM, SRAM ADDRESS
70 A17 HA17 Address 17 0
EPROM, SRAM ADDRESS
71 A16 HA16 Address 16 0
EPROM, SRAM ADDRESS
72 A15 HA15 Address 15 0
EPROM, SRAM ADDRESS
73 A14 HA14 Address 14 0
EPROM, SRAM ADDRESS
74 A13 HA13 Address 13 0
EPROM, SRAM ADDRESS
75 A12 HA12 Address 12 0
EPROM, SRAM ADDRESS
76 A11 HA11 Address 11 0
EPROM, SRAM ADDRESS
77 A10 HA10 Address 10 0
EPROM, SRAM, Zlva Adrs
78 A9 HA9 Address 9 0
EPROM, SRAM, Zlva Adrs
79 A8 HA8 Address 8 0
EPROM, SRAM, Zlva Adrs
80 A7 HA7 Address 7 0
EPROM, SRAM ADDRESS
81 A6 HA6 Address 6 0
EPROM, SRAM ADDRESS
82 A5 HA5 Address 5 0
EPROM, SRAM ADDRESS
83 A4 HA4 Address 4 0
EPROM, SRAM ADDRESS
84 A3 HA3 Address 3 0
EPROM, SRAM ADDRESS
85 A2 HA2 Address 2 0
EPROM, SRAM ADDRESS
86 A1 HA1 Address 1(SERVO DAB) 0
EPROM, SRAM ADDRESS
87 A0 HA0 Address 0(DSP DAB) 0
EPROM, SRAM ADDRESS
88 /RD /RD /Read Strobe 0 /Read
89 /WR /WR /Write Strobe 0 /Write
90 P52 RSTB RF&Servo IC Reset 0 KS1461 (73), KS1452 (9)
91 Vss DGND - DGND
92 PA0 RFRP
Tracking Lock monitir from SERVO
I KS1452 (7)
93 PA1 TILTO Monitor signal I KS1452 (69)
94 PA2 MTP17 Reserved I I NC
95 PA3 SENSE SENSE monitor from SERVO I KS1452 (22)
96 PA4 FR
Spindle direcrion from SP Driver
I BA6849FP (20)
97 PA5 SLOCK LOCK monitor from DSP I KS1453 (108)
98 PA6 FOKB Focus lock monitor from RF I KS1461 (48)
99 PA7 RFO RF sum signal (Analog Lnput) I RFO
100 VREFH 5D A/D Ref Input (H) I 5D
NO PORT NAME ASSIGNED NAME DESCRIPTION TYPE REMARK
1 VREFL DGND A/D Ref Input(L) I DGND
2 AVss DGND A/D Ref Input - DGND
3 AVcc 5D A/D VCC Input - 5D
4 DAOUT0 MTP1 0 NC
5 DAOUT1 MPT2 0 NC
6 /NMI - PULL-UP I
7 P53 CSB D. Servo IC Chip Select 0 KS1452(10)
8 P54/BUSAK MTP3 0
9 /WAIT /MWAIT /Wait(ZiVA, DSP) I /MWait
10 P56 DVD/CD DVD/CD RF AGC Gain Select 0 RF(KS1461)
11 SCLK2 SCLK Serial Data Clock I FRONT
12 P80/TXD0 MD RF Contrl Data 0 KS1461(69)
13 P81/RXD0 STB RF Data Latch I/0 KS1461(71)
14 P82/SCLKO MC RF Control Clock 0 KS1461(70)
15 P83/TXD1 MTP5 0 NC
16 P84/RXD1 MTP6 0 NC
17 P85/SCLK1 MTP4 0 NC
18 TXD2 RXD Serial Data Output 0 FRONT
19 RXD2 TXD Serial Data Input I FRONT
20 CSO /CSO EPROM(M27C801) Select 0 EPROM(M27C801)
21 CS1 /CS1 SRAM(KM681000) Select 0 SRAM(KM681000)
22 CS2 /DVD1CS AVDecoder(ZiVA4) Select 0 AVDecoder(ZiVA4)
23 CS3 /DSPCS
Data Processor(KS1453) Select
0 Data Processor(KS1453)
24 CLK CLK
CLOCK OUTPUT (System Clock 2)
0 fc/2
25 Vcc 5D - VCC
26 Vss GDND GND - GND
27 X1 X1 High Frequency OSC in I
28 X2 X2 High frequency OSC out 0
29 /EA /EA Internal ROM Less Mode I GND
30 /REST /MRST Master reset from FRONT I FRONT, IC
31 INT1 SRQ Interrupt from Front Micom I FRONT
32 P71 RRQ Request to Front Micom 0 FRONT
33 P72 SCL EEPROM CLOCK 0 KS24C020(6)
34 P73 SDA EEPROM DATA I/O 0 KS24C020(5)
35 P74 OPEN Tray Out Motor Control Output 0 DRIVER(0PIN-, 16)
36 P75 CLOSE Tray In Motor Control Output 0 DRIVER(0PIN-, 17)
37 INT5 FGINT
Interrupt from Spindle Motor FG
I DRIVER(FG, 2)
38 P91 ACT MUTE Driver IC MUTE(Actuator) 0 DRIVER(MUTE4, 37)
39 P92 M/D MUTE Driver IC MUTE(Spindle) 0 DRIVER(MUTE3, 38)
40 P93 ZRST DSP H/W reset 0 KS1453(124)
41 INT7 /DVDINT Interrupt from AV-DEC I INV(ZiVA-4(51))
42 INT8 /DSPINT Interrupt from DSP I INV(KS1453(126))
43 P96 ZIVA_RST
AV Decoder Reset(Active H:4.0, L:4.1)
0 ZiVA-4(52)
44 Vcc 5D
45 D0 HAD0 Data 0 I/0
46 D1 HAD1 Data 1 I/0
47 D2 HAD2 Data 2 I/0
48 D3 HAD3 Data 3 I/0
49 D4 HAD4 Data 4 I/0
50 D5 HAD5 Data 5 I/0
20MHz
Reference Information
2-8 Samsung Electronics
2-1-5 MIC2 (M27C801 ; 8Mbit (1Mbx8) UVEPROM and OTP EPROM)
NAME
A0-A19
E
Q0-Q7
OVpp
Vcc Vss
1 2 3 4 5 6 7 8
9 10 11 12 13 14 15 16
A16 A15 A12
A7 A6 A5 A4 A3 A2 A1
A0 Q0 Q1 Q2
Vss
Vcc
A17 A14 A13 A8 A9 A11 GV
PP
A10 E Q7 Q6 Q4 Q4 Q3
32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17
TOP VIEW
Vcc
Vss
LOGIC DIAGRAM
FUNCTION
Address Inputs
Chip Enable
Data Outputs
Output Enable/Program Supply Supply Voltage
Ground
A19
A18
GVpp
E
A0-A19 A0-Q7
20
8
Reference Information
Samsung Electronics 2-9
2-1-6 MIC3 (W24256A ; 32K x 8 High Speed CMOS Static RAM)
1 2 3 4 5 6 7 8 9 10 11 12 13 14
28-pin
DIP
28 27 26 25 24 23 22 21 20 19 18 17 16 15
V
DD
WE A13 A8 A9 A11
OE
A10
CS I/O8 I/O7 I/O6 I/O5 I/O4
A14 A12
A7
A6 A5 A4 A3
A2
A1 A0
I/O1
I/O2 I/O3
V
SS
A0
. .
CS
A14
WE
I/O1
I/O8
OE
V
DD
V
SS
. .
DATA I/O
DECODER
CONTROL
CORE
ARRAY
SYMBOL DESCRIPTION
A0-A14
Address Inputs
I/O1-I/O8
Data Inputs/Outputs Chip Select Input Write Enable Input Output Enable Input
V
DD
Power Supply
V
SS
Ground
TOP VIEW
BLOCK DIAGRAM
CS
WE
OE
Reference Information
2-10 Samsung Electronics
2-1-7 FIC1 (LC86P6232 ; Front Micom)
Interrupt Control
Stand-by Control
CF
BUS
BUS
PC
ACC
Bus InterfaceBase Timer
SIO 0
SIO 1
Timer 0
Timer 1
VFD Controller
ADC
INT0-3 Noise Filter
Real Time Service
XRAM (128 bytes)
High Voltage Output
Port 1
Port 7
Port 8
Port 2
Port 3
Port 4
Port 5
PWM 1
B Reg
PSW
RAR
RAM
Stack Pointer
PORT 0
Watch Dog Timer
C Reg
ALU
ROM
IR PLA
RC
Clock Generator
Xtal
Reference Information
Samsung Electronics 2-11
NO PORT NAME TYPE ASSIGNED NAME DESCRIPTION REMARK
51 S18 - SEG7 FLT SEGMENT CONTROL FLT
52 S19 - SEG8 FLT SEGMENT CONTROL FLT
53 S20 - SEG9 FLT SEGMENT CONTROL FLT
54 S21 0 SEG10 FLT SEGMENT CONTROL FLT
55 S22 0 SEG11 FLT SEGMENT CONTROL FLT
56 S23 0 SEG12 FLT SEGMENT CONTROL FLT
57 S24 0 SEG13 FLT SEGMENT CONTROL FLT
58 S25 0 SEG14 FLT SEGMENT CONTROL FLT
59 S26 0 SEG15 FLT SEGMENT CONTROL FLT
60 S27 0 SEG16 FLT SEGMENT CONTROL FLT
61 S28 0 SEG17 FLT SEGMENT CONTROL FLT
62 S29 0 SEG18 FLT SEGMENT CONTROL FLT
63 S30 0 SEG19 FLT SEGMENT CONTROL FLT
64 S31 0 SEG20 FLT SEGMENT CONTROL FLT
65 P00 I MODE4 HARDWARE MODE SELECT MARKET CODE
66 P01 I MODE3 HARDWARE MODE SELECT MARKET CODE
67 P02 I MODE2 HARDWARE MODE SELECT MARKET CODE
68 P03 I MODE1 HARDWARE MODE SELECT MARKET CODE
69 P04 I MODE0 HARDWARE MODE SELECT MARKET CODE
70 P05 - TP10 NC
71 P06 - TP11 NC
72 P07 -- NC
73 P10/S0 0 0 TXD SERIAL DATA OUT SERIAL DATA OUT
74 P11/S1 0 I RXD SERIAL DATA IN SERIAL DATA IN
75 P12/SC K0 0 SCLK SERIAL CLOCK SERIAL CLOCK
76 P13/S0 1 - TP12 NC
77 P14/SI 1 - TP13 NC
78 P15/SC K1 - TP14 NC
79 P16/BU Z - TP15 NC
80 P17/PW MO - TP16 NC
81 P30 I S1 SHUTTLE DATA JOG/SHUTTLE
82 P31 I S2 SHUTTLE DATA JOG/SHUTTLE
83 P32 I S3 SHUTTLE DATA JOG/SHUTTLE
84 P33 I S4 SHUTTLE DATA JOG/SHUTTLE
85 P34 I J1 JOG DATA JOG/SHUTTLE
86 P35 I J2 JOG DATA JOG/SHUTTLE
87 P36 I AT VIDEO OUT SEL. VIDEO SELECT(OPEN)
88 P37 I AD VIDEO OUT SEL. VIDEO SELECT
89 VSS - +5V
90 VDD - GND
91 P40 0 RGBCTL SCART CONTROL SCART JACK
92 P41 0 SCON_B SCART CONTROL SCART JACK
93 P42 - TP28 NC
94 P43 0 WIDE SCART CONTROL SCART JACK
95 P44 0 SRQ request to main micom NC
96 P45 0 SAVE POWER SAVE MODE POWER
97 P46 0 AMUTE1 REAR MUTE AUDIO
98 P47 0 AMUTE0 FRONT MUTE AUDIO
99 P50 0 LED STANDBY LED LED
100 P51 0 ON/OFF POWER ON/OFF CONTROL POWER
NO PORT NAME TYPE ASSIGNED NAME DESCRIPTION REMARK
1 P52 0 MRST Front end reset RESET
2 PWM1 - TP1 NC
3 P20 0 CS1 Chip Select 1 AK4393
4 P21 0 CCLK Control Data Clock AK4393/AK4356
5 P22 0 CDTI Control Data AK4393/AK4356
6 P23 0 CS2 Chip Select 2 AK4356
7 P24 0 DARST PD(Power Down) AK4393
8 P25 0 DARST 1 PD(Power Down) AK4356
9 P26 0 VMUTE0 BA7660 MUTE(VIC2) VIDEO(RESERVED)
10 P27 0 VMUTE1 BA7660 MUTE(VIC1) VIDEO(RESERVED)
11 TEST1 - TP4 NC
12 *RES I *RES Reset
13 XT1 - GND Low Frequency OSC in
14 XT2 - TP5 Low Frequency OSC out
15 VSS - GND
16 CF1 I - High Frequency OSC in
17 CF2 0 - High Frequency OSC out
18 VDD - VDD
19 ANO/P8 0 I ECHO_VR ECHO volume A/D input KARAOKE
20 AN1/P8 1 I MIC_DET MIC detect KARAOKE
21 AN2/P8 2 - TP19 NC
22 AN3/P8 3 I KEY0 KEY SCAN TACT SW
23 AN4/P8 4 I KEY1 KEY SCAN TACT SW
24 AN5/P8 5 I KEY2 KEY SCAN TACT SW
25 AN6/P8 6 - NC
26 AN7/P8 7 - NC
27 P70/IN TO I RRQ Request to Front Micom MAIN MICOM
28 P71/IN T1 - TP25 NC
29 P72/IN T2 - TP26 NC
30 P73/IN T3 I REMOCON REMOCON data in REMOCON EYE
31 S0/T0 0 GRID11 FLT GRID CONTROL FLT
32 S1/T1 0 GRID10 FLT GRID CONTROL FLT
33 S2/T2 0 GRID9 FLT GRID CONTROL FLT
34 S3/T3 0 GRID8 FLT GRID CONTROL FLT
35 S4/T4 0 GRID7 FLT GRID CONTROL FLT
36 S5/T5 0 GRID6 FLT GRID CONTROL FLT
37 S6/T6 0 GRID5 FLT GRID CONTROL FLT
38 S7/T7 0 GRID4 FLT GRID CONTROL FLT
39 S8/T8 0 GRID3 FLT GRID CONTROL FLT
40 S9/T9 0 GRID2 FLT GRID CONTROL FLT
41 S10/T10 0 GRID1 FLT GRID CONTROL FLT
42 S11/T11 0
43 S12/T12 0 SEG1 FLT SEGMENT CONTROL FLT
44 S13/T13 0 SEG2 FLT SEGMENT CONTROL FLT
45 S14/T14 0 SEG3 FLT SEGMENT CONTROL FLT
46 S15/T15 0 SEG4 FLT SEGMENT CONTROL FLT
47 VOD - +5V
48 VP - -28V
49 S16 0 SEG5 FLT SEGMENT CONTROL FLT
50 S17 0 SEG6 FLT SEGMENT CONTROL FLT
Reference Information
2-12 Samsung Electronics
2-1-8 RIC1 (KS1461 ; RF Signal Processor)
RF
Equalizer
ALPC
D1 B1
A1
C1
DCD1
DDVD1
BDVD1
ADVD1 CDVD1
BCD1 CCD1
ACD1
F
E
MUX
TESEL(00H)
AUTO
OFSTCTL
TE3B
RFCT
&
MIRR
DPDVCC
LDODVD
ABCDN
12
17
14
15 16
25
22
70
55
100 98 94 92 89 8591 76848788 8293
GCA
TBAL(01H)
TEOFST(04H)
GAIN_TE3(02H)
­+
21
18 19
20
FOKTH
DFCT_CP2
CC1
DGND
80 77787981
RFRP
71
ABCDI
ENV
90
CD1
+
+ + +
RF SUM
&AGC
GAIN_EQ(02H)
ENVELOPE FOK DEFECT
24
AVCC
PDVD
PDLIMITRES
ABCD
SUB
RF
MUX
97 959699 86
VREFEQ
74
73 72
52
51
CLOCK DATA
VREFDPD
toDPD
BLO CK
to RF EQ
TUNING BLOCK
13
23
FOFST
LDOCD
PDCD
53
54
DVCC
75
BCA
FAULTOUT
56
83
AGND
STB
DPDGND
MUX
BCAI
DPDEQ 2 DPDEQ 1
DFCT2
TE3OFST
ANALOG
VC AMP
VREFA
DFCT_CP1
VREFLP_BGI
CC2
DPD
VC AMP
TEN
TE
DFCT1
FE
PLLCTL
TE1RES
MIRR
DPDMUTE
OSC
FOKB
-
+
FOFST
AB CD
SUM
+
FE
OFSTHOLD
FEN
DFCTTH2
DFCTTH1
ENVP
ENVB
RESET
BCAO
AGC_D ET
RFAGCO
AGCLEVEL
AGCI
EQVCC
RFEQO
PLLF
BCATH
EQF
RDPF
VZOCTL
AGCC
RFCT
EQGND
CP1
MIRRI
RFRPN
CP2
CB2
RFRP
AGCP
AGCB
CB1
MROFST
EQIN
RREFDLY
VREF
GENERATOR
RREFBF
RREF
RREFEQ
EQ VC
AMP
58
60
59
57
65
62
63
61
64
68
67
66
69
S/ I F BLOCK
CD1 S12 DVD1 DVD2 LDONB FLT_CTL CDRSEL TESEL AGC HOLD TBAL GAIN_TE3 ENV_ SE L DVCTL_SEL DPD_MUTE GAIN_EQ GAIN_FE GAIN_ABCD TE_OFST FE_OFST ABCD_ OFST DELAY_CD DELAY_AB PDL IM I T ga_RFSUM HOLD_CTL ga_PLLDP ga_PLLDN
BCA
BLOCK
BCA
MUX
EQIN
-+
AGC-HOLD(00H)
ENV_SEL(02H)
LDONB(00H)
COM
DPDEQ 1
DPDEQ 2
COM
DELAY
DELAY_AB(07H) DELAY_CD (07H ) PLLCTL
TEOFST(04H)
PD,LPF
PD_LIMIT(08H)
DELAY _SEL(00H) PLL CTL TBAL( 01H)
DELAY_SEL(00H) PLL CTL
FAULTOUT
TE1RES
TE1_LIMIT
PDLIMITRES
GA_PLLDN(09 H) GA_PLLDP(09 H )
+ +
EQ
+ +
EQ
CDRSEL(00H)
D
B
A
C
RF
MUX
ACD
CCD DCD
BCD
6 7
8
ADVD
CDVD DDVD
BDVD
2 3 4
5
1
D
D
D D
MUX3
DVCTL_SEL(02H)
GCA
GCA
ga_R FSUM(08H)
HOL D_CTL( 0 8 H) DPDMUTE DPD_MUTE( 02H) SEOFHOLD FL T_CT L(00 H) CAL_ ENDB(02H)
CDRSEL(00H)
OFSTHOLD
GAIN_FE(03H)
OFSTHOLD
+
+
+
-
CDRSEL(00H)
OFSTHOLD
S12
GAIN_ABCD(00 H)
ABCD _ OFST(06H)
FE_OFST(05 H )
9 10 11
Ab normal waveform Detection circuit
GCA
31 42 43 4644 5026 27 40 41 47 4839 453428 32 3329 30 36 37 3835 49
EQG
Reference Information
Samsung Electronics 2-13
Pin No.
Pin Name I/O Description Related Block
Related
Part
1 ACD I Optical main beam A, AC Coupling input terminals for CD of RF
block
PRE AMP P/U
2 BCD I Optical main beam B, AC Coupling input terminals for CD of RF
block
PRE AMP P/U
3 CCD I Optical main beam C, AC Coupling input terminals for CD of RF
block
PRE AMP P/U
4 DCD I Optical main beam D, AC Coupling input terminals for CD of RF
block
PRE AMP P/U
5 ADVD I Optical main beam A, AC Coupling input terminals for DVD of RF
block
PRE AMP P/U
6 BDVD I Optical main beam B, AC Coupling input terminals for DVD of RF
block
PRE AMP P/U
7 CDVD I Optical main beam C, AC Coupling input terminals for DVD of RF
block
PRE AMP P/U
8 DDVD I Optical main beam D, AC Coupling input terminals for DVD of RF
block
PRE AMP P/U
9 RREFBF - RF AMP I/O buffer bias resistance connection terminal RF AMP ­10 RREFEQ - RF EQ BIAS resistance connection terminal RF EQ ­11 RREF - Analog Block bias resistance connection terminal ANALOG ­12 VREFEQ - CAP connection terminal for RF EQ Center voltage EQ VC AMP ­13 E I CD Optical sub beam E input terminal for Servos TE 3B P/U 14 F I CD Optical sub beam F input terminal for Servos TE 3B P/U 15 ADVD1 I Optical main beam A input terminal for DVD of Servo block SERVO AMP P/U 16 BDVD1 I Optical main beam B input terminal for DVD of Servo block SERVO AMP P/U 17 CDVD1 I Optical main beam C input terminal for DVD of Servo block SERVO AMP P/U 18 DDVD1 I Optical main beam D input terminal for DVD of Servo block SERVO AMP P/U 19 ACD1 I Optical main beam A input terminal for CD of Servo block SERVO AMP P/U 20 BCD1 I Optical main beam B input terminal for CD of Servo block SERVO AMP P/U 21 CCD1 I Optical main beam C input terminal for CD of Servo block SERVO AMP P/U 22 DCD1 I Optical main beam D input terminal for CD of Servo block SERVO AMP P/U 23 AVCC P Power voltage input terminal for Analog Part ANALOG ­24 VREFA I/O CAP connection terminal for Analog Part center voltage
Uses an external block
ANA VC AMP SERVO
25 FOFST - CAP connection terminal (open) for Focus Auto Offsets FE AMP ­26 OFSTHOLD I On/Off terminal for Auto Offset Block.
(L: Auto Offset Adjustments, H: Serial Offset Adjustments)
OFSTCTL MICOM
27 VREFLP_BGI I Band gap voltage input block for ALPC ALPC ­28 LDODVD O
Optical Laser Diodes operation voltage output terminal for DVD
ALPC P/U
29 PDDVD I
Optical Laser Monitor Diode voltage input terminal for DVD
ALPC P/U
30 LDOCD O
Optical Laser Diode operating voltage output terminal for CD
ALPC P/U
31 PDCD I
Optical Laser Monitor Diode voltage input terminal for CD
ALPC P/U
32 AGND P
Power GND terminal for Analog Part
ANALOG -
33 FE O
FE AMP output terminal
FE AMP DSSP
34 FEN I
Input terminal for selecting FE AMP Gain
FE AMP -
35 TEN I
Input terminal for selecting TE AMP Gain
TE AMP -
36 TE O
TE AMP output terminal
TE AMP DSSP
37 PDLIMTRES -
Bias resistance terminal for PDLIMIT
DPD -
38 ABCDN I
ABCD AMP for selecting Gain (
- ) input terminal
ABCD AMP -
39 ABCD O
ABCD AMP output terminal
ABCD AMP -
40 ABCDI I
ABCD AC Coupling input terminal for servo monitor
SERVO MONIT -
41 ENVP -
CAP connection terminal for selecting the RC value of Peak Hold for detecting RF Envelopes
RF ENV -
42 ENVB -
CAP connection terminal for selecting the RC value of Bottom Hold for detecting RF Envelopes
RF ENV -
43 ENV O
RF Envelope Detect Output terminal
RF ENV DSSP
44 DGND P
Power GND input terminal for digital circuits
DIGITAL -
45 FOKTH I
Focus OK comparating level input terminal
FOKB -
46 FOKB O
Focus OK comparator output terminal (L: Focus OK)
FOKB DSSP
47 DFCT_CP1 -
Connection terminal for RC value of Peak Hold, for selecting the maximum time for Servo signal
DFCT -
48 DFCT_CP2 -
Connection terminal for RC value of Peak Hold, for selecting the minimum defect time for PLL
DFCT -
49 CC1 O
Peak Hold Output terminal for selecting the minimum Defect time for Defect
DFCT -
50 CC2 I
Peak Hold AC Coupling Input terminal for Defect
DFCT -
51 DVCC P
Power voltage input terminal for digital circuit
DIGITAL -
52 DFCTTH2 -
Resistance connection terminal for selecting the Defect Comparat­ing Level for PLL
DEFECT -
53 DFCTTH1 -
Resistance connection terminal for selecting the Defect Comparat­ing Level for Servo
DEFECT -
54 DFCT1 O
Defect output terminal for Servo
DEFECT DSSP
55 DFCT2 O
Defect output terminal for PLL
DEFECT PLL
56 DPDVCC P
Power voltage input terminal for DPD TE
DPD -
57 MIRR O
Mirror output terminal
MIRR DSSP
58 BCA O
BCA output terminal
BCA DSP
59 TE3OFST -
Cap connection terminal (open) for 3B TE Offset
3B TE AMP -
60 DPDEQ1 O
DPD EQ (A+C) output terminal
DPD -
61 DPDEQ2 O
DPD EQ (B+D) output terminal
DPD -
62 FAULTOUT O
DPD abnormal wave form output terminal (monitor)
DPD -
63 DPDMUTE I
DPD TE MUTE control terminal (H: Mute)
DPD MICOM
64 PLLCTL I
DPD TE PLL variable input terminal
DPD SERVO
65 TE1RES I
DPD TE PLL variable bias resistance
DPD -
66 DPDGND P
Power GND input terminal for DPD TE
DPD -
67 VREFDPD O
CAP connection terminal for DPD TE center voltage
DPD VC AMP -
68 RREFDLY -
Bias resistance connection terminal for Delay Block
Delay Block -
69 DATA I
Data input terminal
Serial Interface MICOM
70 CLOCK I
Clock input terminal
Serial Interface MICOM
71 STB I
Data Enable input terminal
Serial Interface MICOM
72 OSC
Input terminal for RC value of OSC, for Auto Offset Block
Auto OFSTCTL -
73 RESET I
Reset input terminal (L: Reset) for Auto Offset Block
Auto OFSTCTL MICOM
74 BCAI I
BCA Filter1
BCA -
75 BCAO O
BCA Filter2
BCA -
76 RFCT O
RF Ripple Center voltage output terminal for Mirror
MIRROR DSSP
77 CB2 -
CAP connection terminal of RC value of Bottom Hold, for RFCT generation
MIRROR -
78 CP2 -
CAP connection terminal of RC value of Peak Hold, for RFCT gen­eration
MIRROR -
79 RFRP O
RF Ripple Amp output terminal for Mirror
MIRROR DSSP
80 RFRPN I
Input terminal for selecting RFRP Amp gain
MIRROR -
81 MROFST I
RF Ripple Offset control terminal for Mirror
MRROR -
82 CB1 -
RC connection terminal of RC value of Bottom Hold, for RFRP generation
MRROR -
83 CP1 -
RC connection terminal of RC value of Peak Hold, for RFRP gen­eration
MRROR -
84 MIRRI I
Input terminal for MIRR signal generation
MRROR -
85 EQVCC P
Power voltage input signal for RF EQ
RF EQ -
86 RFEQ0 0
RF EQ output terminal
RF EQ PLL
87 BCAT H I
BCA Comparating Level control terminal
BCA DSP
88 EQIN I
RFAGCO input terminal for RF EQ
RFEQ,RFENV DSSP
89 RFAGCO O
RF AGC AMP output terminal
RF AGC -
90 AGCC -
CAP connection terminal for time constant of AGC
RF AGC -
91 AGCI I
AGC voltage input terminal while in AGC hold
RF AGC -
Pin No.
Pin Name I/O Description Related Block
Related
Part
92 EQGND P
Power GND input terminal for RF EQ
RF EQ -
93 AGCLEVEL I
AGC Level control voltage input terminal (3.5 V) while in AGC hold off
RF AGC -
94 AGCB -
RC connection terminal for RC value of Bottom Hold, for RF AGC
RF AGC -
95 AGCP -
RC connection terminal for RC value of Peak Hold, for RF AGC
RF AGC -
96 RDPF -
Bias resistance connection terminal for selecting RF EQ frequency
RF EQ -
97 EQG I
RF EQ Boost Gain control voltage input terminal
RF EQ DSSP
98 EQF I
RF EQ Peak Frequency control voltage input terminal
RF EQ DSSP
99 PLLF I
Wide-band PLL compatible RF EQ Peak Frequency Control termi­nal
RF EQ DSSP
100 VZOCTL I
RF EQ zero control terminal
RF EQ DSSP
Related
Reference Information
2-14 Samsung Electronics
2-1-9 SIC1 (KS1452 ; Servo Processor)
XI
XO
TIMING
GENERATOR
TR ACK COUNTER
VREF
FOD
TRD
SL D
SPD
FBAL
TBAL
A/D
CONVERTER
BLOC K
ENV
SME
TE
FE
D/A
CONVERTER
BLOC K
COUT
FLKB
TLKB
SSTOP/PS0
PS1
LOCK
SMON
MIRR
FOKB
DFCT
I/O I NTER FACE BLOCK
DAB
CSB
MDAT A[ 7:0]
MWRB
SENSE
SYSCON
INTERFACE
BLOCK
ROM
DSP CORE
FOR
DIGITAL SERVO
PL CK
RVCO
VCTRL
EQC TL
WIDE CAPTURE
RANGE PLL
LDONB
PSB
RSTB
TEST
TZCA
MRDB
EFM ASYMM ETRY
RFI
ASYCD
XOUT
TILTI
TILTO
EFM
EFMR TD
RPD
PLLLOCK
MDOUT[3:0]
DIRC
ASYDVD
EFMI
DVCTL
MAGIC0
INT0_224
PL LHD
RFD
PHI1
EFMOA
FDCTL
TZCO
Reference Information
Samsung Electronics 2-15
41 PVDD P PLL logic block VDD power supply pin
42 PLCK O PLCK
43 PLLLOCK O Frequency lock detect output (H: lock, L: unlock)
44 EFMRTD O Latched EFM output signal
45 PVSS P PLL logic block VSS power supply pin
46 RVCO I Resistor pin for VCO gain
47 RFD I Gain adjust resister for frequency detector
48 RPD I Gain adjust resister for phase detector
49 VCTL I control voltage for VCO
50 MAGIC0 I Input for controlling hysteresis of the FD output (for testing)
51 EFMOA I EFM offset adjustment pin
52 TZCO O Tracking zero cross output pin
53 SVDD P Servo CPU VDD power supply pin
54 EQCTL O EQ control signal
55 EFMI I EFM signal for test
56 EFMO O EFM signal
57 LPFDVD I Asymmetric input signal for DVD
58 LPFCD I Asymmetric input signal for CD
59 RFI I Rf input signal
60 SVSS P Servo CPU VSS power supply pin
61 AVSS P Analog block VSS power supply pin
62 SME I Spindle error input pin
63 VREF I Reference voltage input pin
64 TE I Tracking error signal input pin
65 FE I Focus error signal input pin
66 ENV I RF envelope input pin
No Name I/O Description
67 TILTI I TILT in (reserved)
68 AVDD P Analog block VDD power supply pin
69 TILTO O TILT out (reserved)
70 DVCTL O Depth variation control signal output pin
71 TBAL O Tracking balance signal output pin
72 FBAL O Focus balance signal output pin
73 SLD O Sled motor drive signal output pin
74 SPD O Spindle motor drive signal output pin
75 FOD O Focus actuator drive signal output pin
76 TRD O Tracking actuator drive signal output pin
77 TZCA I TE signal for tracking zero cross input pin
78 MDOUT0 O Mode data0 out controlled by micom
79 MDOUT1 O Mode data1 out controlled by micom
80 MDOUT2 O Mode data2 out controlled by micom
No Name I/O Description
1 MDOUT3 O Mode data3 out controlled by micom
2 SSTOP/PS0PS1 I Limit switch/sled position sensor input pin0
3 PS1 I Sled motor position sensor input pin1
4 TEST I Test pin (L: normal H: test)
5 COUT O Counter clock
6 FLKB O Focus servo lock signal output pin
7 TLKB O Tracking servo lock signal output pin
8 PSB I 0: 1 Bit, 1: 8 Bit
9 RSTB I System reset signal input pin
10 CSB I MICOM chip select pin
11 DAB I MICOM data/addrs select pin
12 MWRB I MICOM write clock signal input pin
13 MRDB I MICOM read clock signal input pin
14 MDATA0 I/O MICOM data pin0
15 MDATA1 I/O MICOM data pin1
16 MDATA2 I/O MICOM data pin2
17 MDATA3 I/O MICOM data pin3
18 MDATA4 I/O MICOM data pin4
19 MDATA5 I/O MICOM data pin5
20 MDATA6 I/O MICOM data pin6
21 MDATA7 I/O MICOM data pin7
22 SENSE O Internal status monitor pin
23 DVDD P Servo logic & ROM VDD power supply pin
24 XI I System clock signal input pin
25 XO O System clock signal output pin
26 XOUT O Clock out (33.9688MHz) to DSP
27 DVSS P Servo logic & ROM VSS power supply pin
28 SQCK O Clock output pin for subcode data read
29 SQSI I Subcode data input pin
30 SCOR I Timing detection input pin for subcode data read
31 SMON I Motor ON signal input pin
32 LOCK I Lock signal input pin
33 DIRC I
Direct jump control (for 1 track jump)
34 FOKB I Focus OK signal input pin
35 FDCTL I PLL frequency detect control input pin
36 LDONB O Laser diode ON signal output pin
37 DFCT I Defect detection signal input pin
38 MIRR I Mirror signal input pin
39 PLLHD I PLL hold signal from micom
40 INT0_224 O Servo interrupt monitor pin
Reference Information
2-16 Samsung Electronics
2-1-10 SIC4 (KA3017 ; Motor & Actuator Driver)
123654789101112
13
14
15
16
17
18
19
20
21
22
23
24
25 26 27 28 29 30 31 32 33 34 35 36
37
38
40
39
42
41
43
44
45
46
47
48
Hall bias
FG
Comparator
Absolute
Values
TSD
Detector
Direction Detector
+
-
Hall amp matrix
Direction select
+
-
-
+
+
-
+
-
+
-
+
-
+
-
+
-
+
-
+
-
Power
Save
Short vrake
+
-
Lower
Distributor
Upper
Distributor
MUTE MUTE MUTE
2P
2P
2P
2P
2P
2P
2P
2P
2P
10k
10k
10k
10k
PWRGND
A3
A2
A1
OPIN +
OPIN
-
OPOUT
VCC1
AVM12
DI4
DI3
DI2
FIN (GND)
FIN (GND)
H3+
H3
-
H2+
H2
-
H1+
H1
-
BTLSGND
BIAS
AVM4
MUTE12
MUTE3
MUTE4
DI1
DO1
-
DO1 +
DO2
-
DO2 +
BTLPGND1
BTLPGND2
DO3
­DO3 +
AVM3
DO4
-
DO4 +
FIN (GND)
SB
DIR
SS
CS1
VM
SIGGND
PC1
VCC2
EC
ECR
FG
VH
FIN (GND)
Reference Information
Samsung Electronics 2-17
No. Symbol I/O Description
1 VH I HALL BIAS 2 FG O FG SIGNAL OUTPUT 3 ECR I TORQUE CONTROL REFERENCE 4 EC I TORQUE CONTROL SIGNAL 5 VCC2 SUPPLY VOLTAGE 6 PC1 PHASE COMPENSATION CAPACITOR 7 SIGGND SIGNAL GROUND 8VM MOTOR SUPPLY VOLTAGE
9 CS1 I CURRENT SENSOR 10 S/S I START/STOP 11 DIR O 3-PHASE ROTATIONAL DIRECTION OUTPUT 12 SB I SHORT BRAKE 13 PWRGND POWER GROUND 14 A3 O 3-PHASE OUTPUT 3 15 A2 O 3-PHASE OUTPUT 2 16 A1 O 3-PHASE OUTPUT 1 17 OPIN+ I OP AMP INPUT (+) 18 OPIN- I OP AMP INPUT (-) 19 OPOUT O OP AMP OUTPUT 20 VCC1 SUPPLY VOLTAGE 21 AVM12 BTL CH-1, 2 MOTOR SUPPLY VOLTAGE 22 DI4 I BTL DRIVE INPUT 4 23 DI3 I BTL DRIVE INPUT 3 24 DI2 I BTL DRIVE INPUT 2 25 DI1 I BTL DRIVE INPUT 1 26 DO1- O BTL DRIVE 1 OUTPUT (-) 27 DO1+ O BTL DRIVE 1 OUTPUT (+) 28 DO2- O BTL DRIVE 2 OUTPUT (-) 29 DO2+ O BTL DRIVE 2 OUTPUT (+) 30 BTLPGND1 BTL POWER GROUND 1 31 BTLPGND2 BTL POWER GROUND 2 32 DO3- O BTL DRIVE 3 OUTPUT (-) 33 DO3+ O
BTL DRIVE 3 OUTPUT (+) 34 AVM3 BTL CH3 MOTOR SUPPLY VOLTAGE 35 DO4- O BTL DRIVE 4 OUTPUT (-) 36 DO4+ O BTL DRIVE 4 OUTPUT (+) 37 MUTE4 I BTL DRIVE MUTE CH 4 38 MUTE3 I BTL DRIVE MUTE CH 3 39 MUTE12 I BTL DRIVE MUTE CH 1, 2 40 AVM4 BTL CH 4 MOTOR SUPPLY VOLTAGE 41 BIAS BTL BIAS VOLTAGE 42 BTLSGND BTL DRIVE SIGNAL GROUND 43 H1- I HALL1(-) INPUT 44 H1+ I HALL1(+) INPUT 45 H2- I HALL2(-) INPUT 46 H2+ I HALL2(+) INPUT 47 H3- I HALL3(-) INPUT 48 H3+ I
HALL3(+) INPUT
Reference Information
2-18 Samsung Electronics
2-1-11 ZIC1 (ZIVA 4.1 ; A/V Decoder)
Digital Audio Input
SDRAM
Interface
Audio
DSP
Digital
Audio
Interface
Program
Stream
Decoder
Host
Interface
Audio
Interface
DVD/CD
Interface
MPEG Video
Decoder
Subpicture
Decoder
OSD
Decoder
CD-DA and LPCM
Decoder
Dolby Digital Audio
Decoder
MPEG Audio
Decoder
Memory
Controller
Host
Interface
Control Logic
SecureView
CSS
Descrambling
Bus Key
Authentication
(optional)
Video
Mixer
Video
Out
Digital
Video
Encoder
Reference Information
Samsung Electronics 2-19
Pin No . Pin Name I/O Voltage I/O Type
1RD
3.3V I
2R/W
3.3V I
3 VDD_3.3 3.3V
4 WAIT
3.3V O, OD, PU
5RESET3.3V I
6 VSS GROUND
7 VDD_3.3 3.3V
8INT
3.3V O, OD, PU
9 NC No Connect O
10 NC No Connect O
11 NC No Connect O
12 NC No Connect O
13 VDD_2.5 2.5V
14 VSS GROUND
15 NC No Connect O
16 NC No Connect O
17 NC No Connect O
18 NC No Connect O
19 VSS GROUND
20 VDD_3.3 3.3V
21 VDATA0 3.3V O
22 VDATA1 3.3V O
23 VDATA2 3.3V O
24 VDAT
A3 3.3V O
25 VDATA4 3.3V O
26 VDATA5 3.3V O
27 VDATA6 3.3V O
28 VDATA7 3.3V O
29 VSYNC
3.3V I/O
30 HSYNC
3.3V I/O
31 VSS GROUND
32 VDD_3.3 3.3V
33 RESERVED 3.3V I
34 RESERVED 3.3V I
35 RESERVED 3.3V I
36 VDD_2.5 2.5V
37 VSS GROUND
38 RESERVED 3.3V I
39 RESERVED 3.3V I
40 RESERVED 3.3V I
41 RESERVED 3.3V I
42 RESERVED 3.3V I
43 PIO0 3.3V I/O
44 VSS GROUND
45 VDD_3.3 3.3V
46 PIO1 3.3V I/O
47 PIO2 3.3V I/O
48 PIO3 3.3V I/O
49 PIO4 3.3V I/O
50 PIO5 3.3V I/O
51 PIO6 3.3V I/O
52 PIO7 3.3V I/O
53 MDATA0 3.3V I/O
54 MDATA1 3.3V I/O
55 VDD_3.3 3.3V
56 VSS GROUND
57 MDATA2 3.3V I/O
58 MDATA3 3.3V I/O
59 MDATA4 3.3V I/O
60 MDATA5 3.3V I/O
61 MDATA6 3.3V I/O
62 MDATA7 3.3V I/O
63 MDAT A 15 3.3V I/O
64 VDD_3.3 3.3V I/O
65 VSS GROUND I/O
66 MDAT A 14 3.3V I/O
67 VDD_2.5 2.5V
68 VSS GROUND
69 MDAT A 13 3.3V I/O
70 MDAT A 12 3.3V I/O
71 MDAT A 11 3.3V I/O
72 MDAT A 10 3.3V I/O
73 MDATA9 3.3V I/O
74 VDD_3.3 3.3V
75 VSS GROUND
76 MDATA8 3.3V I/O
77 LDQM 3.3V O
78 SD-CLK 3.3V O
79 CLKSEL 3.3V I
80 MADDR9 3.3V O
81 MADDR8 3.3V O
82 VDD_3.3 3.3V
83 VSS GROUND
84 MADDR7 3.3V O
85 MADDR6 3.3V O
86 MADDR5 3.3V O
87 VDD_2.5 2.5V
88 VSS GROUND
89 MADDR4 3.3V O
90 MWE
3.3V O
91 SD-CAS
3.3V O
92 VDD_3.3 3.3V
93 VSS GROUND
94 SD-RAS
3.3V O
95 SD-CS0
3.3V O
96 SD-CS1
/MADDR11 3.3V O
Pin No . Pi n Name I/O Voltage I/O Ty pe
97 SD-BS
3.3V O
98 MADDR10 3.3V O
99 MADDR0 3.3V O
100 VDD_3.3 3.3V
101 VSS GROUND
102 MADDR1 3.3V O
103 MADDR2 3.3V O
104 MADDR3 3.3V O
105 RESERVED ANALOG GND
106 NC No connect O
107 NC No connect O
108 RESERVED 3.3V I
109 NC No connect O
110 RESERVED 3.3V I
111 RESERVED 3.3V ANALOG
112 RESERVED 3.3V I
113 DAI-LRCK 3.3V I/O
114 DAI-BCK 3.3V I/O
115 VDD_3.3 3.3V
116 VSS GROUND
117 DAI-DATA 3.3V I/O
118 DA-DATA3 3.3V O
119 DA-DATA2 3.3V O
120 DA-DATA1 3.3V O
121 DA-DATA0 3.3V O
122 DA-LRCK 3.3V O
123 VDD_3.3 3.3V
124 VSS GROUND
125 DA-XCK 3.3V I/O
126 DA-BCK 3.3V O
127 DA-IEC 3.3V O
128 VDD_2.5 2.5V
129 VSS GROUND
130 NC No Connect O
131 VSS_DAC ANALOG GND
132 VSS_VIDEO ANALOG GND
133 CVBS + sync 3.3V ANALOG O
134 VDD_DAC 3.3V ANA LOG O
135 VDD_VIDEO 3.3V ANALOG
136 NC No Connect O
137 VSS_DAC ANALOG GND
138 VSS_VIDEO ANALOG GND
139 CVBS/G/Y 3.3V ANALOG O
140 VDD_DAC 3.3V ANA LOG
141 VDD_VIDEO 3.3V ANALOG
142 NC No Connect O
143 VSS_DAC ANALOG GND
Pin No . Pin Name I/O Voltage I/O Type
144 VSS_VIDEO ANALOG GND
145 Y/B/U 3.3V ANAL OG O
146 VDD_DAC 3.3V ANALOG
147 VDD_VIDEO 3.3V ANALOG
148 NC No Connect O
149 VSS_DAC ANALOG GND
150 VSS_VIDEO ANALOG GND
151 C/R/V 3.3V ANALOG O
152 VDD_DAC 3.3V ANALOG
153 VDD_VIDEO 3.3V ANALOG
154 VSS_RREF ANALOG GND
155 RREF 3.3V ANALOG O
156 VDD_RREF 3.3V ANALOG
157 A_VSS GROUND
158 SYSCLK 3.3V I
159 VCLK 3.3V I
160 A_VDD 3.3V ANALOG
161 DVD-DATA0/CD-DATA 3.3V I
162 DVD-DATA1/CD-L RCK 3.3V I
163 DVD-DATA2/CD-BCK 3.3V I
164 DVD-DATA3/CD-C2P0 3.3V I
165 DVD-DAT A4/CDG-SDATA 3.3V I
166 VSS GROUND
167 VDD_3.3 3.3V
168 DVD-DATA5/CDG-VFSY 3.3V I
169 DVD-DATA6/CDG-S0S1 3.3V I
170 DVD-DATA7/CDG-SCLK 3.3V I
171 VDACK 3.3V I
172 VREQUEST 3.3V O
173 VSTROBE 3.3V I
174 ERROR 3.3V I
175 VDD_3.3 3.3V
176 RESERVED GROUND
177 VDD_3.3 3.3V
178 VSS GROUND
179 NC No connect O
180 NC No connect O
181 NC No connect O
182 HADDR0 3.3V I
183 HADDR1 3.3V I
184 HADDR2 3.3V I
185 RESERVED 3.3V I
186 RESERVED 3.3V I
187 RESERVED 3.3V I
188 VSS GROUND
189 VDD_2.5 2.5V
190 RESERVED 3.3V I
Pin No. Pin Name I/O Voltage I/O Type
Reference Information
2-20 Samsung Electronics
191 VSS GROUND
192 VDD_3.3 3.3V
193 RESERVED 3.3V I
194 RESERVED 3.3V I
195 RESERVED 3.3V I
196 RESERVED 3.3V I
197 HDA TA7 3.3V I/O
198 VSS GROUND
Pin No . Pin Name I/O Voltage I/O Type
199 HDATA6 3.3V I/O
200 HDATA5 3.3V I/O
201 HDATA4 3.3V I/O
202 HDATA3 3.3V I/O
203 HDATA2 3.3V I/O
204 VDD_3.3 3.3V
205 VSS 3.3V
206 HDATA1 3.3V I/O
207 HDATA0 3.3V I/O
208 CS
3.3V I
Pin No . Pi n Name I/O Voltage I/O Ty pe
Reference Information
Samsung Electronics 2-21
2-1-12 ZIC2/ZIC3 (KM416S1120D ; CMOS 16M SDRAM)
Bank Select
Data Input Register
512K x 16
512K x 16
Sense AMP
Output BufferI/O Control
Column Decoder
Latency & Burst Length
Programming Register
Address Register
Row Buffer
Refresh Counter
Row Decoder Col. Buffer
LRAS
LCBR
LCKE
LRAS LCBR LWE LDQM
CLK CKE CS
RAS CAS WE L(U)DQM
LWE
LDQM
DQi
CLK
ADD
LCAS LWCBR
Timing Register
VDD DQ0 DQ1
V
SSQ
DQ2 DQ3
V
DDQ
DQ4 DQ5
V
SSQ
DQ6 DQ7
V
DDQ
LDQM
WE CAS RAS
CS BA
A10/AP
A0 A1 A2 A3
V
DD
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26
VSS DQ15 DQ14 V
SSQ
DQ13 DQ12 V
DDQ
DQ11 DQ10 V
SSQ
DQ9 DQ8 V
DDQ
N.C/RFU UDQM CLK CKE N.C A9 A8 A7 A6 A5 A4 V
SS
Pin Name Input Function
CLK System Clock Active on the positive going edge to sample all inputs. CS
Chip Select
Disables or enables device operation by masking or enabling all inputs except CLK, CKE and L(U)DQM
CKE Clock Enable
Masks system clock to freeze operation from the next clock cycle. CKE should be enabled at least one cycle prior to new command. Disable input buffers for power down in standby.
A
0 ~ A10/AP Address
Row / column addresses are multiplexed on the same pins. Row address : RA
0 ~ RA10, column address : CA0 ~ CA7
BA Bank Select Address
Selects bank to be activated during row address latch time. Selects bank for read/write during column address latch time.
RAS
Row Address Strobe
Latches row addresses on the positive going edge of the CLK with RAS
low.
Enables row access & precharge.
CAS
Column Address Strobe
Latches column addresses on the positive going edge of the CLK with CAS
low.
Enables column access.
WE
Write Enable
Enables write operation and row precharge. Latches data in starting from CAS
, WE active.
L(U)DQM Data Input/Output Mask
Makes data output Hi-Z, t
SHZ after the clock and masks the output.
Blocks data input when L(U)DQM active.
DQ
0 ~ 15 Data Input/Output Data inputs/outputs are multiplexed on the same pins.
V
DD/VSS Power Supply/Ground Power and ground for the input buffers and the core logic.
V
DDQ/VSSQ Data Output Power/Ground
Isolated power supply and ground for the output buffers to provide improved noise immunity.
N.C/RFU
No Connection/ Reserved for Future Use
This pin is recommended to be left No Connection on the device.
Reference Information
2-22 Samsung Electronics
MEMO
Samsung Electronics 3-1
3. Product Specifications
Power Requirements AC 110 - 240V, 50/60Hz
Power Consumption 17W
GENERAL
Weight 3.1kg
Dimensions W 430mm X D 280mm X 89mm
Operating Temperature Range +5°C ~ +35°C
Operating Humidity Range 10% to 75%
DVD Reading Speed : 3.49 m/sec
(Digital Versatile Disc)
Approx. Play Time (Single Sided, Single Layer Disc) : 135 min.
CD : 12Cm Reading Speed : 1.2 to 1.4 m/sec
DISC
(Compact Disc) Maximum Play Time : 74min.
CD : 8Cm Reading Speed : 1.2to 1.4 m/sec.
(Compact Disc) Maximum Play Time : 20min.
VCD : 12Cm
Reading Speed : 1.2 to 1.4 m/sec. Maximum Play Time : 74min. (Video + Audio)
Composite Video 2 channel : 1.0Vp-p (75ohm load)
R(Red) : 0.714 Vp-p (75ohm load) G(Green) : 0.714 Vp-p (75ohm load)
Video Output
Scart Jack B(Blue) : 0.714 Vp-p (75ohm load)
Composite Video : 0.714 Vp-p (75ohm load) Color Signal : 0.286 Vp-p (75ohm load)
S-Video
Luminance Signal : 1Vp-p (75ohm load) Color Signal : 0.286Vp-p (75ohm load)
Scart Jack 2 Channel : L(1.L), R(2/R)
2 Channel L (1/L), R (2/R)
* Frequency Response
48KHz Sampling : 4Hz to 22 KHz
Audio Output
96KHz Sampling : 4Hz to 44KHz
* S/N Ratio 115dB
* Dynamic Range 105dB
* Total Harmonic Distortion 0.003%
* : Nominal specification
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