Upload
calin-silviu-ionut
View
58
Download
15
Tags:
Embed Size (px)
Citation preview
Service Manual - SAT-55000S
- SAT-57000S
- SAT-9400 FTA
5 October, 2005
Topfield Co., Ltd
2
IMPORTANT Note : The design of the satellite receiver is subject to continuous development and improvement. Consequently, this receiver may incorporate minor changes in detail from the information contained in this manual. Warning : These servicing instructions are for use by qualified personnel only. To reduce the risk of electric shock, do not perform any servicing other than that specified in the operating instructions unless you are fully qualified to do so.
GOLDMASTER
3
TABLE OF CONTENTS Page IMPORTANT........................................................................................................................2
1. Safety Instructions .........................................................................................................5
2. List and Description of The Major Parts.........................................................................6
2.1. Main Board ................................................................................................................................. 6
2.2. Front Board................................................................................................................................. 7
3. Block Diagram of The IRD.............................................................................................8
4. Block Diagram of The Main Board.................................................................................9
5. Test and Repair ...........................................................................................................10
5.1. Visual Test ................................................................................................................................ 10
5.2. Basic Function Test....................................................................................................................11
5.2.1. No LED and 7-segment is turned on .................................................................................................................... 11
5.2.2. Some LED and 7-segment have problems........................................................................................................... 11
5.2.3. Remote Control Unit (RCU) does not work. ......................................................................................................... 11
5.2.4. Key of the front panel have problems................................................................................................................... 11
5.2.5. No System ID is displayed.................................................................................................................................... 11
5.2.6. Receiver acts like the key of the Front Board or RCU is pressed. .......................................................................12
5.2.7. No picture but the OSD works. .............................................................................................................................12
5.2.8. No picture (and no OSD) and No sound...............................................................................................................12
5.2.9. No sound and good picture ..................................................................................................................................13
5.2.10. No picture(and no OSD) and good sound ............................................................................................................13
5.2.11. No sound and / or no picture on the RF modulator (Cinch works well) ................................................................13
5.2.12. No LNB power at all of the vertical and horizontal................................................................................................13
5.2.13. Incorrect LNB power.............................................................................................................................................13
5.3. The Advanced Test of Main Board............................................................................................ 14
5.3.1. Voltages on important point ..................................................................................................................................14
5.3.2. Power on Test sequence ......................................................................................................................................14
5.3.3. Reset ....................................................................................................................................................................14
5.3.4. System Clock........................................................................................................................................................16
5.3.5. RS232 Data Port (Program download port) and Program download ...................................................................16
5.3.6. LNB power............................................................................................................................................................17
5.3.7. RF modulator........................................................................................................................................................18
5.3.8. Video.....................................................................................................................................................................18
5.3.9. Audio ....................................................................................................................................................................18
5.4. The Advanced Test of Front Board. .......................................................................................... 19
5.4.1. Key .......................................................................................................................................................................19
GOLDMASTER
4
5.4.2. Remote control .....................................................................................................................................................19
5.4.3. Display..................................................................................................................................................................19
5.4.4. Nothing works on Front Board..............................................................................................................................19
5.5. The Advanced Test of SMPS.................................................................................................... 20
5.5.1. Check the damaged parts.....................................................................................................................................20
5.5.2. Test the diodes. ....................................................................................................................................................20
5.5.3. Check the Shunt regulator....................................................................................................................................20
5.5.4. Check the Pothocoupler IC...................................................................................................................................20
5.5.5. Check the Fuse. ...................................................................................................................................................20
6. PIN description of The Major Parts..............................................................................21
6.1. Main Board ............................................................................................................................... 21
6.2. Front Board............................................................................................................................... 21
6.3. SMPS........................................................................................................................................ 21
7. Schematic Diagrams ...................................................................................................22
7.1. Schematic diagram of Front Board........................................................................................... 22
7.2. Schematic diagram of Main Board ........................................................................................... 23
7.3. Schematic diagram of SMPS (power supply)........................................................................... 24
GOLDMASTER
5
1. Safety Instructions Read this chapter carefully before servicing the IRD.
1.1 The IRD must be disconnected from the mains plug before it is opened. 1.2 The capacitor inside the SMPS (power supply) can hold charge even if the IRD has been disconnected
from the mains plug. To handle SMPS, wait until the capacitor is discharged. 1.3 Only the same screw should be used to assemble the IRD.
GOLDMASTER
6
2. List and Description of The Major Parts
2.1. Main Board
Page Part
Name
Location
Number Part number Function Comment
Tuner Module U1 TBMU24311IPP Channel tuning.
Analog to Digital Conversion.
QPSK demodulation.
Or, equivalent part
Regulator U2 LM7805
(with Heat sink)
Regulates Tuner 5V Or, equivalent part
LNB Power
Switching IC
U3 LNBP20PD Regulates and switching LNB power
(Horizontal 18V, Vertical 13V)
22KHz tone On/Off
LNB Power Bypass
1
Poly Switch U4 RXE065 Over current protection of
LNB power.
3 CPU, Demux
and Decoder
U5 IBM39STB02500 Main CPU of IRD
MPEG Demux and Decoder
Flash Memory U7 SST39VF800A Saves program and constant Or, equivalent part 4
EEPROM U8 24LC02B-SN Saves some parameters Or, equivalent part
5 SDRAM U9 K4S641632D Main system memory Or, equivalent part
ASIC U10 TF301SC15 CI interface, System control 6
Reset IC U11 ELM9727NBA
Power level detection,
Resets the system.
Only one IC is used
Regulator U12 LD1117ADT18 Regulates internal 1.8V Or, equivalent part
Regulator U13 MIC39100-2.5BS Regulates internal 2.5V.
Regulator U14 78L12 Regulates internal 12V.
7
Connector JP2 5267-12A Power input connector from SMPS
8 RS232 Driver U15 MAX232 Rs232 level conversion Or, equivalent part
Audio DAC U17 UDA1334TS Audio Digital to Analog Converter Or, equivalent part 9
OP Amp U16 TL072 Audio amplifier Or, equivalent part
SCART SCART1 2203-42STA SCART connector 10
Cinch J1 RCA – 3pin Cinch connector for A/V
Regulator U19 LM7805
(without Heat sink )
Regulates 5V for RF-modulator Or, equivalent part 11
RF Modulator U20 RMUP74055AB RF Modulator
Connector JP5 5267-7A Front Board Interface
Regulator U21 LM7805 Regulates 5V for front Or, equivalent part
12
TTL U22 74LVC14 Front Board Interface Or, equivalent part
Connector JP6 5267-9A Front Board Interface 13
TTL U23 74LVC14 Front Board Interface Or, equivalent part
GOLDMASTER
7
2.2. Front Board page Part
Name
Location
Number
Part number Function Comment
7-Segment U1 A-3C4G Displays Messages Or, equivalent part
Remocon Sensor U2 TSOP4838 Receives RCU signal Or, equivalent part
TTL U3, U4 74HCT164 Interface front board with
main board
Or, equivalent part
1
Connector J1 5267-7A Front board and main board
interface
GOLDMASTER
8
3. Block Diagram of The IRD
Fron
t Boa
rd
Mai
n Bo
ard
Pow
er S
uppl
y(S
MPS
)
Cinc
h fo
r AV
RF
mod
ulat
orRS
232
+5V
, Con
trol s
igna
l
TUN
ER
+30V
, +22
V, +
17V
, +15
V, +
8V,
+3.3
V, G
ND
SPD
IFTV
SC
AR
T
GOLDMASTER
9
4. Block Diagram of The Main Board
DRA
M fo
r TS
Buffe
r & S
yste
m
Aud
io D
AC
(UD
A13
34O
rPC
M17
54)
FLA
SH M
emor
y Fr
ont B
oard
I/F
Prog
ram
Dow
nloa
d Po
rt (R
S232
)
EEPR
OM
(24L
C02
)T
UN
ER
VC
XO
Con
nect
or fo
r Man
ufac
ture
Cin
chou
tput
Syst
em C
ontro
lA
SIC
(TF3
01SC
15)
AV
Con
trol
RFM
odul
ator
LNB
pow
er,
22kh
zge
nera
tor
IIC
bus
for R
F m
odul
ator
IIC
Chan
nel D
ata
Vol
tage
Det
ecto
r(R
eset
IC)
(ELM
9727
NBA
)
IBM
39ST
B02
500
(VU
LC
AN
)
SPD
IFO
utpu
t
Vid
eo O
utpu
t
TV S
cart
Out
put
GOLDMASTER
10
5. Test and Repair 5.1. Visual Test
- Check whether all the connectors are plugged well. ‘JP2’ of Main Board : Power connector. ‘JP6 of Main Board : Connector for Front Board interface
- Check whether the SMPS(power supply) has any damage. - Check whether the Main Board has any damage. - Check whether the Front Board has any damage. - Check whether the RS232 Sub board has any damage.
GOLDMASTER
11
5.2. Basic Function Test 5.2.1. No LED and 7-segment is turned on Possible Cause How to Check How to repair 1 Front Board Problem Replace the Front Board with
new one which works well in other IRD
If it works, repair the Front Board. Otherwise, check the Main Board and SMPS.
5.2.2. Some LED and 7-segment have problems Possible Cause How to Check How to repair 1 Front Board Problem Check the Front Board according to
the advanced function test. 5.2.3. Remote Control Unit (RCU) does not work. Possible Cause How to Check How to repair 1 Remote Controller may
have some problem. If some keys of RCU do not work, it may be RCU problem.
Replace the RCU with new one.
2 Sensor of the Front Board may have problem
If key, LED and 7-segment work, And only the Remote control does not work, it is sensor problem.
Check the PCB pattern of Front Board. Check the power of U2(sensor). Replace the sensor.
5.2.4. Key of the front panel have problems Possible Cause How to Check How to repair 1 If some of the key does
not work, it is the Front Board problem. Pattern or broken tact switch can be a problem
If one of the key or RCU work, it is the problem of the switch or PCB pattern of the Front Board.
Check the switch and the PCB patterns of Front Board.
2 If sometime RCU work, but the key of the front panel does not work, then one of the key may be pressed always.
Check J1.3 in Front Board or JP5.3 in main board. This pin should be “HIGH” when no key is pressed.
Replace the tact switch. Check the PCB and remove the short to the GND. Check the Front board resistors
5.2.5. No System ID is displayed Possible Cause How to Check How to repair
1 Main Board problem. Communication problem between the Front Board and the Main Board.
Replace the Front Board with new one which works well in the other IRD
If it works, repair the Front Board. If it does not work, repair the Main Board.
2 Main Board fails to boot. The 7-segment on the Front Board displays only the time with brighter display when the power key is pressed.
Repair the Main Board. Check the powers of Main Board.
GOLDMASTER
12
REF) System ID : When the power is turned on, 7-segment on the Front panel displays it. Ex) ‘L5.05’ is displayed : its System ID is 505 5.2.6. Receiver acts like the key of the Front Board or RCU is pressed. Possible Cause How to Check How to repair 1 The key of the Front
Board is pressed always. Replace the Front Board and check it. Check J1.3 in Front Board or JP5.3 in main board. This pin should be “HIGH” when no key is pressed.
Replace the broken key with new one. Check the Front PCB. Replace the tact switch. Check the PCB and remove the short to the GND. Check the Front board resistors
5.2.7. No picture but the OSD works. Possible Cause How to Check How to repair 1 Tuner problem If the signal level of the tuner is
very low, it may be a problem of the tuner, antenna cable or antenna.
Check the antenna signal. Check the tuner part.
2 No or bad LNB power No or bad 22khz signal.
Check the LNB power and 22khz signal on LNB in of the tuner.
See LNB section of this manual.
3 The power of the tuner has some problem.
If the signal level of the tuner is very low, check the voltage of the U1.7 (tuner). It should be about 30V.
If not, check the SMPS and the power path (include series bead (L4) and capacitors (C6, C8) )
4 CPU (IBM39STB02500) problem
If all the other things work except the picture and sound, it may be the problem MPEG decoding. In this case, the signal level and signal quality of the information bar will be good.
5 Channel Data path problem.
There is good RF signal level, and good signal quality, but no broadcasting is scanned. In this case, it may be a channel data path problem.
Check the channel data path of the Main Board.
5.2.8. No picture (and no OSD) and No sound Possible Cause How to Check How to repair 1 CPU (IBM39STB02500)
problem. In this case, the OSD have some problems.
Check SMPS and Main Part of main board voltage
2 SMPS problem. Check the all the power of power connector on Main Board.
Repair the power according to the advanced function test .
GOLDMASTER
13
5.2.9. No sound and good picture Possible Cause How to Check How to repair
1 Audio DAC or OP Amp problem
Test the Main Board according to the advanced function test.
Repair the Main Board according to the advanced function test.
5.2.10. No picture(and no OSD) and good sound Possible Cause How to Check How to repair
1 CPU (IBM39STB02500) problem
Test the Main Board according to the advanced function test.
5.2.11. No sound and / or no picture on the RF modulator (Cinch works well) Possible Cause How to Check How to repair 1 RF channel is selected
incorrectly. Check the RF channel selection.
Select the correct channel.
2 RF modulator has problem.
Replace the RF modulator with new one. If it works well, it is the problem of RF modulator.
Replace it with new one.
3. Problem of Audio or Video line on the board.
Replace the RF modulator with new one. It will have the same problem.
Repair the Main Board.
5.2.12. No LNB power at all of the vertical and horizontal. Possible Cause How to Check How to repair 1 ‘LNB power OFF‘ is
selected in the menu. Check the LNB menu. Set the LNB power to ON.
2 U3(LNBP20PD)or related circuit has problem.
Test the Main Board according to the advanced function test.
Repair the Main Board according to the advanced function test.
4 SMPS has problem. Check the SMPS Replace the SMPS. 5.2.13. Incorrect LNB power Possible Cause How to Check How to repair
1 If only the 18V is very low, it can be a SMPS problem.
Check the SMPS(or JP2.2). It should be higher than 20V.
If not, replace SMPS.
2 Both the 18V and 13V are too low or too high.
Test the Main Board according to the advanced function test.
GOLDMASTER
14
5.3. The Advanced Test of Main Board. 5.3.1. Voltages on important point
- Voltage at JP2 in page 7 (of a schematic diagram)
Pin number Minimum
voltage
Nominal
voltage
Maximum
voltage
Comment
1 +28V +30V +32V
2 +20V +22V +23V
3 +16V +17V +18V
5 +7.6V +8V +8.4V
7 +4.75V +5V +5.25V
9 +3.22V +3.3V +3.38V In standby mode, it can be higher than maximum voltage
11 +14V +15V +17V
4,6,8,10,12 GND GND GND
* important : Be careful not to short the signals while checking the signals. It may damage the other part of Main Board.
5.3.2. Power on Test sequence - Check point 1 -
JP6.1 is the power supply pin of the Front Board. It should be 5V. If it is not 5V, remove the Front Board from the JP6. And, check JP6.1 again. If it is 5V, the Front Board have problem. Otherwise, the Main Board or SMPS have problem.
- Check point 2 – Replace the Front Board with new one. If it does not work, it is the problem of Main Board. Check the voltages of some
points according to ‘Voltages on important point’ section.
5.3.3. Reset After power on by the Front Board, reset circuit works. Schematic page 6.
U11 is a voltage detector. If the voltage of 3.3V is lower than 2.7V its output goes to low.
GOLDMASTER
15
The ‘nRESETIN’ signal should go high after power up ( when the IRD goes to Normal state from Standby state.) The reset signal is delayed and reconstructed in U10(TF301SC15). The reset output of U10.44 is provided to all the system. - Check point 1 -
In normal state, the ‘nRESETIN’ signal is 3.3V. If it is about 0V, U11 has problem. - Check point 2 -
U10.39 and U10.44 should be 3.3V. If only U10.39 is 3.3V, check the system clock.
GOLDMASTER
16
5.3.4. System Clock Schematic page 3
VCXO1 generates the system clock. The ‘SCLK’ signal is 27.000MHz clock signal. If the color of the picture disappears, the ‘SCLK’ signal may be different from 27.000MHz or the VCXO1 have bad quality. In this case, replace VCXO1 with new one. - Check point 1 -
Check the input and output of ‘F1’. All of them should have 27MHz clock signal. If F1.3 have not 27MHz clock signal, it may the problem of VCXO1.
- Check point 2 - If the video output of receiver has not color, It may the problem of VCXO1.
5.3.5. RS232 Data Port (Program download port) and Program download Connect a PC with a download cable (Female – Female cross cable). If it fails program download and nothing happens in the receiver, check the download cable and the PC. The pin2 and pin3 of the download cable should be crossed.
- Check point 1 -
GOLDMASTER
17
Check the download cable and the PC with a new receiver.
- Check point 2 -
Check the error code on the display of the Front Board. Some message is displayed on the Front panel
when the new program is downloaded. The message and error code is as follows.
Display Description
dn## Data is being downloaded. (‘##’: the number of remained data block)
LP## Loader program is being saved.
(‘##’ : the number of remained flash block to write the loader program.)
AP## Application program is being saved.
(‘##’ : the number of remained flash block to write the application program.)
Fd## Flash data program is being saved.
(‘##’ : the number of remained flash block to write the flash data.)
Ed## EEPROM data is being saved.
(‘##’ : the number of remained EEPROM block to write the EEPROM data.)
E-01 The CRC error of Header/Data block.
E-02 The CRC error of Application program.
E-03 UART communication error.
E-04 Error while Flash writing.
E-05 Memory overflow
E-06 Different system ID. -> The model of the receiver and the program(or data) to be
downloaded is not matched.
E-07 Not supported TFD version.
E-08 Not supported data type.
E-09 EEPROM read error.
E-10 EEPROM write error.
E-11 Not supported Flash memory.
E-12 Error while TFDM writing.
5.3.6. LNB power U3.5 is the control signal for selecting vertical or horizontal. At vertical, level of this pin is logical “LOW”, about 0. And at horizontal, logical “HIGH”, about 3V. U3.4 is the output voltage for tuner (LNB). At vertical, Voltage at this pin is about 13V and at horizontal, about 18V. - Check Point 1 -
If the voltage of U3.2 has below 15V, check the voltage of SMPS according to ‘ Voltages on important point’ section. If the voltage of U3.3 has below 20V, check the voltage of SMPS according to ‘ Voltages on important point’ section.
Set the LNB voltage to Vertical.
GOLDMASTER
18
- Check Point – Check level of U3.5 whether logically ‘LOW’ ( about 0V ). If logically ‘HIGH’ ( over 2V) then check the line from U5 (IBM39STB02500) and U3.5. Check level of U3.6 whether logically ‘HIGH’ ( about 3V ). If logically ‘LOW’ ( about 0V) then check the line from U5 (IBM39STB02500) and U3.6. Check the voltage of U3.4. That value must be about 13V. Voltage of U3.4 is under 12V, then check soldering status of U3.
Set the LNB voltage to Horizontal - Check Point –
Check level of U3.5 whether logically ‘HIGH’ ( about 3V ). If logically ‘LOW’ ( about 0V) then check the line from U5 (IBM39STB02500 ) and U3.5. Check level of U3.6 whether logically ‘HIGH’ ( about 3V ). If logically ‘LOW’ ( about 0V) then check the line from U5 (IBM39STB02500) and U3.6. Check the voltage of U3.4. That value must be over 20V. Voltage of U3.4 is under 20V, then check soldering status of U3.
5.3.7. RF modulator - Check point 1 -
Check the power input of RF modulator (U20, schematic page 11) - Check point 2 -
Check the IIC line.(the signal name is SDA5V, SCL5V).
5.3.8. Video - Check point 1 -
Check video output of Scart, Chinch, and RF modulator. Check L15 and its related circuit (CVBS). At this point the signal should be work. If it does not work well, the IBM39STB02100 (U5) may have problem. Check L16 and its related circuit (RGB - RED). At this point the signal should be work. If it does not work well, the IBM39STB02100 (U5) may have problem. Check L17 and its related circuit (RGB - GREEN). At this point the signal should be work. If it does not work well, the IBM39STB02100 (U5) may have problem. Check L18 and its related circuit (RGB - BLUE). At this point the signal should be work. If it does not work well, the IBM39STB02100 (U5) may have problem.
5.3.9. Audio - Check point 1 -
Check audio output of SCART, Chinch and RF modulator. If only one of them has problem, check its related circuit. - Check point 2 -
Check U17.1 and U17.7. If it does not have audio signal, the Audio DAC(U18) or OP AMP(U17) may have problem. To check audio DAC, check C44 and C47. If it has audio signal, the OP AMP(U17) is the problem.
GOLDMASTER
19
5.4. The Advanced Test of Front Board. 5.4.1. Key
If any key pressed, J1.3 in Front board goes low and high repeatedly. If level of this pin never goes to “LOW”, main board problem,
5.4.2. Remote control U5 is the sensor for remote control. - Check point 1 – Check the Remote control unit with other receiver. If it does not work, the Remote control unit may have problem. If the key and display work and only the remote control does not work, U5 (sensor) may have problem. Check the power of the sensor (U5.3). It should 5V. If not, check the R10 and the PCB. - Check point 2 – If you can not find any problem with the U5.3, replace it with new one.
5.4.3. Display - Check point 1 – If one of the digit is brighter than the other, and the digit displays wrong character, then check resistors and transistors in front board. If there is no wrong value or parts, then replace transistor with new one. - Check point 2 – If one of the digit is not displayed, replace the transistor Q1 to Q5 as follows. First Digit -> Q1 2nd Digit -> Q2 3rd Digit -> Q3 4th Digit -> Q4
dots and LED on the display -> Q5 - Check point 2 –
If one of the segments in one digit is not displayed, replace the display module. - Check point 3 –
If one of the segments of all digit is not displayed, check the resistors (R1, R2, R3, R4, R5, R7, R8, R9) and the PCB pattern.
5.4.4. Nothing works on Front Board.
- Check point 1 – The power of Front board (J1.1), U2.3, U3.14, U4.14 GOLDMASTER
20
5.5. The Advanced Test of SMPS. * There are three kinds of SMPS. : ORTP-820,ORTP-905, HDAD30W601
-------------------------------------- Caution ------------------------------------------- I. The SMPS must be disconnected from the mains plug to test. II. The capacitor inside the SMPS (power supply) can hold charge even if
the IRD has been disconnected from the mains plug. To handle SMPS, wait until the capacitor is discharged.
III. Very high voltage is generated in SMPS.
5.5.1. Check the damaged parts. - Check point 1 –
Check whether there is broken part by visual test.
5.5.2. Test the diodes. Check point 1 –
Check whether the diodes has crack. If there is a crack, replace it with new one.
Same part should be replaced.
- Check point 2 –
Check the resistance of all the diodes. If the resistance is too low (lower than 10ohm), it is the problem.
Replace it with new one. Same part should be replaced. Diodes is named as Dxx or ZDxx.(ex: D1,
ZD1)
To measure the resistance, you must remove the mains plug.
5.5.3. Check the Shunt regulator - Check point 1 –
Check the voltage of U2.3(cathode). It should higher than 3V. If not, remove U2 and check it again.
- Check point 2 –
If U2.3 is higher than 3V, the voltage at U2.1(ref) should 2.5V. If not, replace U2 with new one.
5.5.4. Check the Pothocoupler IC - Check point 1 –
Check the pothocoupler PC1. Check the resistance of diode part and potho Tr part.
If its resistance is about 0 or very low, replace it with new one.
Check if it has damages. And replace it with new one.
5.5.5. Check the Fuse. - Check point 1 –
Check the fuse. Before replacing the fuse, check the other problem which can exist.
The same kind and rated fuse should be replaced.
GOLDMASTER
21
6. PIN description of The Major Parts
6.1. Main Board Tuner Module U1 TBMU24311IPP
Regulator U2 LM7805
LNB Power Switching IC U3 LNBP20PD
CPU, Demux and Decoder U5 IBM39STB02500
Flash Memory U7 SST39VF800A
EEPROM U8 24LC02B-SN
SDRAM U9 K4S641632D
Reset IC U11 ELM9727NBA
Regulator U12 LD1117ADT18
Regulator U13 MIC39100-2.5BS
Regulator U14 78L12
RS232 Driver U15 MAX232
Audio DAC U17 UDA1334TS
OP AMP U16 TL072
RF Modulator U20 RMUP74055AB
6.2. Front Board Part
Name
Location
Number
Part number
Remocon Sensor U2 TSOP4838
TTL U3, U4 74HCT164
6.3. SMPS Part
Name
Location
Number
Part number
Shunt regulator U2 KA431A (AZ431BZ-B)
SPS U1 KA1M0380R (KA5M0365R)
GOLDMASTER
����
�(
��
��
�+
�(
�,
�)
��
���
��
��
��
$%&�
��-.�
*,
�
,)��
!�
���
"'%�
(�������(
�
��
���
��
���/
+)
���
� ���%0
���%
�
� ���� ��� � ���� ���� ��� � ��� � ��� � ���
� ���� ��� � ���� ���� ��� � ���
+��
�
���
(,���
(,��� ���
����
!�
(�������(
(,���
�!�!''$
'�!"!
"�!12���"
2"�$!3
�*
2
�*
2
�*
2� (,���
�� �
�����
���
�����
�4
-���
�� �5,6�7
-
��
���(,���
��%
����
!�
(�������(
GOLDMASTER
TL/H/7746
LM
78X
XSerie
sV
olta
ge
Regula
tors
February 1995
LM78XX Series Voltage Regulators
General DescriptionThe LM78XX series of three terminal regulators is available
with several fixed output voltages making them useful in a
wide range of applications. One of these is local on card
regulation, eliminating the distribution problems associated
with single point regulation. The voltages available allow
these regulators to be used in logic systems, instrumenta-
tion, HiFi, and other solid state electronic equipment. Al-
though designed primarily as fixed voltage regulators these
devices can be used with external components to obtain
adjustable voltages and currents.
The LM78XX series is available in an aluminum TO-3 pack-
age which will allow over 1.0A load current if adequate heat
sinking is provided. Current limiting is included to limit the
peak output current to a safe value. Safe area protection for
the output transistor is provided to limit internal power dissi-
pation. If internal power dissipation becomes too high for
the heat sinking provided, the thermal shutdown circuit
takes over preventing the IC from overheating.
Considerable effort was expanded to make the LM78XX se-
ries of regulators easy to use and mininize the number
of external components. It is not necessary to bypass the
output, although this does improve transient response. Input
bypassing is needed only if the regulator is located far from
the filter capacitor of the power supply.
For output voltage other than 5V, 12V and 15V the LM117
series provides an output voltage range from 1.2V to 57V.
FeaturesY Output current in excess of 1AY Internal thermal overload protectionY No external components requiredY Output transistor safe area protectionY Internal short circuit current limitY Available in the aluminum TO-3 package
Voltage RangeLM7805C 5V
LM7812C 12V
LM7815C 15V
Schematic and Connection Diagrams
TL/H/7746–1
Metal Can Package
TO-3 (K)
Aluminum
TL/H/7746–2
Bottom View
Order Number LM7805CK,
LM7812CK or LM7815CK
See NS Package Number KC02A
Plastic Package
TO-220 (T)
TL/H/7746–3
Top View
Order Number LM7805CT,
LM7812CT or LM7815CT
See NS Package Number T03B
C1995 National Semiconductor Corporation RRD-B30M115/Printed in U. S. A.
GOLDMASTER
LNBP10 SERIES - LNBP20
2/18
input pin is available (EXTM). An appropriate DCblocking capacitor must be used to couple themodulating signal source to the EXTM pin. Whenexternal modulation is not used, the relevant pincan be left open.Two pins are dedicated to the overcurrentprotection/monitoring: CEXT and OLF. Theovercurrent protection circuit works dynamically:as soon as an overload is detected in either LNBoutput, the output is shut-down for a time toffdetermined by the capacitor connected betweenCEXT and GND. Simultaneously the OLF pin, thatis an open collector diagnostic output flag, fromHIGH IMPEDANCE state goes LOW.After the time has elapsed, the output is resumedfor a time ton=1/15toff (typ.) and OLF goes in HIGH
IMPEDANCE. If the overload is still present, theprotection circuit will cycle again through toff andton until the overload is removed. Typical ton+toffvalue is 1200ms when a 4.7µF external capacitoris used.This dynamic operation can greatly reduce thepower dissipation in short circuit condition, stillensuring excellent power-on start up even withhighly capacitive loads on LNB outputs.The device is packaged in Multiwatt15 forthru-holes mounting and in PowerSO-20 forsurface mounting. When a limited functionality in asmaller package matches design needs, a rangeof cost-effective PowerSO-10 solutions is alsooffered. All versions have built-in thermalprotection against overheating damage.
(*): External components are needed to comply to level 2.x and above (bidirectiona) DiSEqC bus hardware requirements. DiSEqC is atrademark or EUTELSAT.
ORDERING CODES
(*) Available on request
PIN CONFIGUARATION (top view)
TYPE Multiwatt-15 PowerSO-20 PowerSO-10
LNBP10 LNBP10SP-TR (*)LNBP11 LNBP11SP-TR (*)LNBP12 LNBP12SP-TR (*)LNBP13 LNBP13SP-TR (*)LNBP14 LNBP14SP-TR (*)LNBP15 LNBP15SP-TR (*)LNBP16 LNBP16SP-TR (*)LNBP20 LNBP20CR LNBP20PD-TR
PowerSo-20 PowerSO-10Multiwatt-15GOLDMASTER
IBM39STBx25xx
Preliminary STBx25xx Digital Set-Top Box Integrated Controllers
Stbx25_Overview.fm.02May 31, 2002- IBM Confidential
Product Overview
Page 43 of 890
1.6.4.10 Real Time Clock / Front Panel Controller
The Real Time Clock (RTC) counts seconds, minutes, hours, and days. Programmable alarms can be set tointerrupt the CPU, allowing the CPU to wake up when required to perform functions such as programming aVCR. The RTC also provides a 3-wire front panel control interface, to drive panel seven-segment displayswith time information or program-generated data.
1.7 Signal and I/O Information
1.7.1 Signals Sorted by Signal Name
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
27MHZ_CLK AA12
AUD_GNDA0 AA8
AUD_GNDA1 AC3
AUD_VDDA0 AC7
AUD_VDDA1 AA5
BI_ADDRESS11 W21
BI_ADDRESS12 Y23
BI_ADDRESS13 V20
BI_ADDRESS14 W22
BI_ADDRESS15 W23
BI_ADDRESS16 V21
BI_ADDRESS17 V22
BI_ADDRESS18 U21
BI_ADDRESS19 U22
BI_ADDRESS20 U23
BI_ADDRESS21 T21
BI_ADDRESS22 P20
BI_ADDRESS23 R23
BI_ADDRESS24 P21
BI_ADDRESS25 P22
BI_ADDRESS26 N21
BI_ADDRESS27 N22
BI_ADDRESS28 N23
BI_ADDRESS29 M21
BI_ADDRESS30 M22
BI_ADDRESS31_WBE1 M23
PL
B
GOLDMASTER
IBM39STBx25xx
STBx25xx Digital Set-Top Box Integrated Controllers Preliminary
Product Overview
Page 44 of 890Stbx25_Overview.fm.02
May 31, 2002- IBM Confidential
BI_CS0 D21
BI_CS1 C22
BI_CS2 B23
BI_CS3 A22
BI_DATA0 L23
BI_DATA1 L22
BI_DATA10 G23
BI_DATA11 G22
BI_DATA12 G21
BI_DATA13 F22
BI_DATA14 E23
BI_DATA15 E22
BI_DATA2 L21
BI_DATA3 K21
BI_DATA4 K20
BI_DATA5 J23
BI_DATA6 J22
BI_DATA7 J21
BI_DATA8 H23
BI_DATA9 H22
BI_OE B20
BI_READY D23
BI_RW E21
BI_WBE0 C23
CI_CLOCK B5
CI_DATA0 B19
CI_DATA1 B18
CI_DATA2 C16
CI_DATA3 A16
CI_DATA4 A12
CI_DATA5 D14
CI_DATA6 B14
CI_DATA7 B12
CI_DATA_ENABLE C6
CLK_GNDA AC9
CLK_VDDA AA11
DAC1_AGND0 B7
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
Preliminary STBx25xx Digital Set-Top Box Integrated Controllers
Stbx25_Overview.fm.02May 31, 2002- IBM Confidential
Product Overview
Page 45 of 890
DAC1_AGND1 A8
DAC1_AGND2 C10
DAC1_AVDD0 B6
DAC1_AVDD1 C8
DAC1_AVDD2 A9
DAC1_AVDD3 B11
DAC1_VOUT1 C7
DAC1_CREF_OUT A5
DAC1_VOUT2 B8
DAC1_GREF_OUT A11
DAC1_VOUT3 C11
DAC1_RREF_OUT A7
DAC1_VREF_IN C9
DAC2_AGND0 B17
DAC2_AGND1 B15
DAC2_AGND2 C13
DAC2_AVDD0 C18
DAC2_AVDD1 B16
DAC2_AVDD2 C14
DAC2_AVDD3 A13
DAC2_VOUT1 C17
DAC2_CREF_OUT A19
DAC2_VOUT2 C15
DAC2_GREF_OUT C12
DAC2_VOUT3 B13
DAC2_RREF_OUT A17
DAC2_VREF_IN A15
DA_BIT_CLOCK AA1
DA_LR_CLOCK AA2
DA_OS_CLOCK AB1
DA_SERIAL_DATA Y2
DA_SPDIF F20
EDMAC3_ACK/DMACK V3
EDMAC3_REQ/DMARQ E3
GND A01
GND A06
GND A10
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
STBx25xx Digital Set-Top Box Integrated Controllers Preliminary
Product Overview
Page 46 of 890Stbx25_Overview.fm.02
May 31, 2002- IBM Confidential
GND A14
GND A18
GND A23
GND AA3
GND AB2
GND AC1
GND AC6
GND B02
GND B22
GND C03
GND C21
GND D04
GND D08
GND D12
GND D16
GND D20
GND F01
GND F23
GND H04
GND H20
GND K01
GND K23
GND M04
GND M20
GND P01
GND P23
GND T04
GND T20
GND V01
GND V23
GND Y04
GND Y08
GND Y12
GND Y16
GND Y20
GND AA21
GND AA23
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
Preliminary STBx25xx Digital Set-Top Box Integrated Controllers
Stbx25_Overview.fm.02May 31, 2002- IBM Confidential
Product Overview
Page 47 of 890
GND AB22
GND AC10
GND AC14
GND AC18
GND AC23
GPIO0 AC2
GPIO1 Y6
GPIO10 R2
GPIO11 V4
GPIO12 W3
GPIO13 B10
GPIO14 D10
GPIO15 B9
GPIO16 D6
GPIO17 C5
GPIO18 A4
GPIO19 B4
GPIO2 AB5
GPIO20 A3
GPIO21 C4
GPIO22 B3
GPIO23 A2
GPIO24 K22
GPIO25 Y22
GPIO26 Y21
GPIO27 AA6
GPIO28 F21
GPIO29 R22
GPIO3 AC5
GPIO30 K4
GPIO31 AB15
GPIO4 C19
GPIO5 B21
GPIO6 A20
GPIO7 D18
GPIO8 M1
GPIO9 N3
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
STBx25xx Digital Set-Top Box Integrated Controllers Preliminary
Product Overview
Page 48 of 890Stbx25_Overview.fm.02
May 31, 2002- IBM Confidential
I2C0_SCL T3
I2C0_SDA U3
INT0 C1
INT1 D2
INT2 H21
RW_HALT W2
RW_TCK AB6
RW_TDI AC4
RW_TDO Y1
RW_TMS AB3
RW_TRST Y3
SC0_CLK AA9
SC0_DETECT AB4
SC0_IO AB8
SC0_RESET AC8
SC0_VCC C20
SC1_CLK R21
SC1_DETECT T22
SC1_IO D22
SC1_RESET T23
SC1_VCC A21
SD0_ADDRESS0 M3
SD0_ADDRESS1 M2
SD0_ADDRESS10 T2
SD0_ADDRESS11 U1
SD0_ADDRESS12 U2
SD0_ADDRESS13 V2
SD0_ADDRESS14 W1
SD0_ADDRESS2 N1
SD0_ADDRESS3 N2
SD0_ADDRESS4 P2
SD0_ADDRESS5 P3
SD0_ADDRESS6 P4
SD0_ADDRESS7 R1
SD0_ADDRESS8 R3
SD0_ADDRESS9 T1
SD0_CAS L3
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
Preliminary STBx25xx Digital Set-Top Box Integrated Controllers
Stbx25_Overview.fm.02May 31, 2002- IBM Confidential
Product Overview
Page 49 of 890
SD0_CLK J1
SD0_CS0 J2
SD0_DATA0 B1
SD0_DATA1 C2
SD0_DATA10 G2
SD0_DATA11 G1
SD0_DATA12 H3
SD0_DATA13 H2
SD0_DATA14 H1
SD0_DATA15 J3
SD0_DATA2 D3
SD0_DATA3 D1
SD0_DATA4 F4
SD0_DATA5 E2
SD0_DATA6 E1
SD0_DATA7 F3
SD0_DATA8 F2
SD0_DATA9 G3
SD0_DQMH L2
SD0_DQML L1
SD0_RAS K2
SD0_WE K3
SD1_ADDRESS0 AA17
SD1_ADDRESS1 AB18
SD1_ADDRESS10 AA20
SD1_ADDRESS11 AB21
SD1_ADDRESS12 AC22
SD1_ADDRESS13 AB23
SD1_ADDRESS14 AA22
SD1_ADDRESS2 AA18
SD1_ADDRESS3 AC19
SD1_ADDRESS4 AB19
SD1_ADDRESS5 Y18
SD1_ADDRESS6 AA19
SD1_ADDRESS7 AC20
SD1_ADDRESS8 AB20
SD1_ADDRESS9 AC21
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
STBx25xx Digital Set-Top Box Integrated Controllers Preliminary
Product Overview
Page 50 of 890Stbx25_Overview.fm.02
May 31, 2002- IBM Confidential
SD1_CAS AA16
SD1_CLK AA15
SD1_CS0 AC15
SD1_DATA0 AA7
SD1_DATA1 AB7
SD1_DATA10 AC13
SD1_DATA11 AB13
SD1_DATA12 AA13
SD1_DATA13 AB14
SD1_DATA14 AA14
SD1_DATA15 Y14
SD1_DATA2 AB9
SD1_DATA3 Y10
SD1_DATA4 AA10
SD1_DATA5 AB10
SD1_DATA6 AB11
SD1_DATA7 AC11
SD1_DATA8 AB12
SD1_DATA9 AC12
SD1_DQMH AC17
SD1_DQML AB17
SD1_RAS AB16
SD1_WE AC16
SYSTEM_RESET AA4
VDD D09
VDD D11
VDD D13
VDD D15
VDD J04
VDD J20
VDD L04
VDD L20
VDD N04
VDD N20
VDD R04
VDD R20
VDD Y09
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
Preliminary STBx25xx Digital Set-Top Box Integrated Controllers
Stbx25_Overview.fm.02May 31, 2002- IBM Confidential
Product Overview
Page 51 of 890
VDD Y11
VDD Y13
VDD Y15
VDD2 D05
VDD2 D07
VDD2 D17
VDD2 D19
VDD2 E04
VDD2 E20
VDD2 G04
VDD2 G20
VDD2 U04
VDD2 U20
VDD2 W04
VDD2 W20
VDD2 Y05
VDD2 Y07
VDD2 Y17
VDD2 Y19
Table 1-1. Signals Sorted by Signal Name
I/O Signal Name Ball Number
GOLDMASTER
IBM39STBx25xx
Preliminary STBx25xx Digital Set-Top Box Integrated Controllers
Stbx25_Overview.fm.02May 31, 2002- IBM Confidential
Product Overview
Page 73 of 890
1.10 Mechanical Information
Package Diagram
M
Top of Package (BGA Side Down)
OEM P/N
0.15
C
C
0.25 C
E52PSUBSTRATE
CuSTIFFENER
(304X ∅ 0. 0.15 SOLDER BALL
C
∅ 0.30
∅ 0.10
C A B
M
GLOBTOP
IBM P/N
XXXXXXX
Date Code
IBM39 STBx25xx xxx xxx
PowerPC
Digital Set-Top BoxIntegrated Controller
ZZWWMMMM
Bottom of Package (BGA Side Up)
123456789
1011121314151617181920212223
15.5
A
.050
1.271.1
27.94
1.22
31
.610
12.75 [0,502]
AC
AB
AAYWVUTRPNMLKJHGFEDCBA
E11005L287501
12.75 [0,502]
15.5
B
.050
1.27 1.1
27.94
1.22
31
.610 0. 20/. 008
Cavity
GOLDMASTER
Data Sheet
2 Mbit / 4 Mbit / 8 Mbit Multi-Purpose FlashSST39LF200A / SST39LF400A / SST39LF800ASST39VF200A / SST39VF400A / SST39VF800A
5©2001 Silicon Storage Technology, Inc. S71117-04-000 6/01 360
FIGURE 1: PIN ASSIGNMENTS FOR 48-LEAD TSOP
Y-Decoder
I/O Buffers and Data Latches
360 ILL B1.2
Address Buffer & Latches
X-Decoder
DQ15 - DQ0
Memory Address
OE#
CE#
WE#
SuperFlashMemory
Control Logic
FUNCTIONAL BLOCK DIAGRAM
A15A14A13A12A11A10
A9A8NCNC
WE#NCNCNCNCNCNCA7A6A5A4A3A2A1
123456789101112131415161718192021222324
A16NCVSSDQ15DQ7DQ14DQ6DQ13DQ5DQ12DQ4VDDDQ11DQ3DQ10DQ2DQ9DQ1DQ8DQ0OE#VSSCE#A0
484746454443424140393837363534333231302928272625
360 ILL F01.2
Standard Pinout
Top View
Die Up
SST39LF200A/400A/800ASST39VF200A/400A/800A
SST39LF/VF200A
A15A14A13A12A11A10
A9A8NCNC
WE#NCNCNCNCNC
A17A7A6A5A4A3A2A1
SST39LF/VF400A
A15A14A13A12A11A10
A9A8NCNC
WE#NCNCNCNC
A18A17
A7A6A5A4A3A2A1
SST39LF/VF800A SST39LF/VF200A
A16NCVSSDQ15DQ7DQ14DQ6DQ13DQ5DQ12DQ4VDDDQ11DQ3DQ10DQ2DQ9DQ1DQ8DQ0OE#VSSCE#A0
SST39LF/VF400A
A16NCVSSDQ15DQ7DQ14DQ6DQ13DQ5DQ12DQ4VDDDQ11DQ3DQ10DQ2DQ9DQ1DQ8DQ0OE#VSSCE#A0
SST39LF/VF800A
GOLDMASTER
1
Features• Low-Voltage and Standard-Voltage Operation
– 5.0 (VCC = 4.5V to 5.5V)– 2.7 (VCC = 2.7V to 5.5V)– 2.5 (VCC = 2.5V to 5.5V)– 1.8 (VCC = 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• Bidirectional 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 Write 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
DescriptionThe AT24C01A/02/04/08/16 provides 1024/2048/4096/8192/16384 bits of serial elec-trically erasable and programmable read only memory (EEPROM) organized as128/256/512/1024/2048 words of 8 bits each. The device is optimized for use in manyindustrial and commercial applications where low power and low voltage operation areessential. The AT24C01A/02/04/08/16 is available in space saving 8-pin PDIP,(AT24C01A/02/04/08/16) , 8-P in MSOP (AT24C01A/02) , 8 -Pin TSSOP(AT24C01A/02 /04 /08 /16 ) , and 8 -P in and 14 -P in JEDEC SOIC(AT24C01A/02/04/08/16) packages and is accessed via a 2-wire serial interface. Inaddition, the entire family is available in 5.0V (4.5V to 5.5V), 2.7V (2.7V to 5.5V), 2.5V(2.5V to 5.5V) and 1.8V (1.8V to 5.5V) versions.
2-WireSerial EEPROM1K (128 x 8)
2K (256 x 8)
4K (512 x 8)
8K (1024 x 8)
16K (2048 x 8)
AT24C01AAT24C02AT24C04AT24C08AT24C16
Rev. 0180D–10/98
Pin ConfigurationsPin Name Function
A0 - A2 Address Inputs
SDA Serial Data
SCL Serial Clock Input
WP Write Protect
NC No Connect
14-Pin SOIC
1234567
1413121110
98
NCA0A1NCA2
GNDNC
NCVCCWPNCSCLSDANC
8-Pin SOIC
1234
8765
A0A1A2
GND
VCCWPSCLSDA
8-Pin PDIP
1234
8765
A0A1A2
GND
VCCWPSCLSDA
8-Pin TSSOP
1234
8765
A0A1A2
GND
VCCWPSCLSDA
8-Pin MSOP
1234
8765
A0A1A2
GND
VCCWPSCLSDAG
OLDMASTER
K4S641632D
Rev. 0.3 June 2000
CMOS SDRAM
VDDDQ0
VDDQDQ1DQ2VSSQDQ3DQ4
VDDQDQ5DQ6VSSQDQ7VDD
LDQMWE
CASRAS
CSBA0BA1
A10/APA0A1A2A3
VDD
123456789101112131415161718192021222324252627
545352515049484746454443424140393837363534333231302928
PIN CONFIGURATION (Top view)
VSSDQ15VSSQDQ14DQ13VDDQDQ12DQ11VSSQDQ10DQ9VDDQDQ8VSSN.C/RFUUDQMCLKCKEN.CA11A9A8A7A6A5A4VSS
54Pin TSOP (II)(400mil x 875mil)(0.8 mm Pin pitch)
PIN FUNCTION DESCRIPTION
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 enableMasks 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.
A0 ~ A11 Address Row/column addresses are multiplexed on the same pins.Row address : RA0 ~ RA11, Column address : CA0 ~ CA7
BA0 ~ BA1 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, tSHZ after the clock and masks the output.Blocks data input when L(U)DQM active.
DQ0 ~ 15 Data input/output Data inputs/outputs are multiplexed on the same pins.
VDD/VSS Power supply/ground Power and ground for the input buffers and the core logic.
VDDQ/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.
GOLDMASTER
GOLDMASTER
LD1117 SERIES
3/24
CONNECTION DIAGRAM (top view)
NOTE: The TAB is connected to the VOUT.
ORDERING CODES
SOT-223 SO-8 DPAK TO-220 TO-220FM OUTPUTVOLTAGE
LD1117S12 LD1117D12 (*) LD1117DT12 LD1117V12 (*) LD1117F12 (*) 1.2 V
LD1117S18 LD1117D18 LD1117DT18 LD1117V18 LD1117F18 1.8 VLD1117S18C LD1117D18C LD1117DT18C LD1117V18C LD1117F18C 1.8 VLD1117S25 LD1117D25 LD1117DT25 LD1117V25 LD1117F25 2.5 V
LD1117S25C LD1117D25C LD1117DT25C LD1117V25C LD1117F25C 2.5 VLD1117S28 LD1117D28 LD1117DT28 LD1117V28 LD1117F28 2.85 VLD1117S30 LD1117D30 LD1117DT30 LD1117V30 LD1117F30 3 V
LD1117S30C LD1117D30C LD1117DT30C LD1117V30C LD1117F30C 3 VLD1117S33 LD1117D33 LD1117DT33 LD1117V33 LD1117F33 3.3 V
LD1117S33C LD1117D33C LD1117DT33C LD1117V33C LD1117F33C 3.3 VLD1117S50 LD1117D50 LD1117DT50 LD1117V50 LD1117F50 5 V
LD1117S50C LD1117D50C LD1117DT50C LD1117V50C LD1117F50C 5 V
LD1117S LD1117D LD1117DT LD1117V LD1117F ADJUSTABLEFROM 1.25 TO
15VLD1117SC LD1117DC LD1117DTC LD1117VC LD1117FC ADJUSTABLE
FROM 1.25 TO15V
SOT-223 SO-8
TO-220FM
DPAK
TO-220
GOLDMASTER
MIC39100/39101/39102 Micrel
MIC39100/39101/39102 2 June 2000
Pin Configuration
IN OUTGND1 32
TAB
GND
MIC39100-x.xFixed
SOT-223 (S)
1EN
IN
OUT
FLG
8 GND
GND
GND
GND
7
6
5
2
3
4
MIC39101-x.xFixed
SOP-8 (M)
1EN
IN
OUT
ADJ
8 GND
GND
GND
GND
7
6
5
2
3
4
MIC39102AdjustableSOP-8 (M)
Pin DescriptionPin No. Pin No. Pin No. Pin Name Pin Function
MIC39100 MIC39101 MIC39102
1 1 1 EN Enable (Input): CMOS-compatible control input. Logic high = enable, logiclow or open = shutdown.
2 2 IN Supply (Input)
3 3 3 OUT Regulator Output
4 FLG Flag (Output): Open-collector error flag output. Active low = output under-voltage.
4 ADJ Adjustment Input: Feedback input. Connect to resitive voltage-dividernetwork.
2, TAB 5–8 5–8 GND Ground
GOLDMASTER
CONNECTION DIAGRAM AND ORDERING NUMBERS (top view)
ORDERING NUMBERSType SO-8 TO-92 SOT-89 (T&R) Output Voltage
L78L33ACL78L33ABL78L05CL78L05ACL78L05ABL78L06CL78L06ACL78L06ABL78L08CL78L08ACL78L08ABL78L09CL78L09ACL78L09ABL78L12CL78L12ACL78L12ABL78L15CL78L15ACL78L15ABL78L18CL78L18ACL78L18ABL78L24CL78L24ACL78L24AB
L78L33ACDL78L33ABDL78L05CDL78L05ACDL78L05ABDL78L06CDL78L06ACDL78L06ABDL78L08CDL78L08ACDL78L08ABDL78L09CDL78L09ACDL78L09ABDL78L12CDL78L12ACDL78L12ABDL78L15CDL78L15ACDL78L15ABDL78L18CDL78L18ACDL78L18ABDL78L24CDL78L24ACDL78L24ABD
L78L33ACZL78L33ABZL78L05CZL78L05ACZL78L05ABZL78L06CZL78L06ACZL78L06ABZL78L08CZL78L08ACZL78L08ABZL78L09CZL78L09ACZL78L09ABZL78L12CZL78L12ACZL78L12ABZL78L15CZL78L15ACZL78L15ABZL78L18CZL78L18ACZL78L18ABZL78L24CZL78L24ACZL78L24ABZ
L78L33ACUTRL78L33ABUTR
L78L05ACUTRL78L05ABUTR
L78L06ACUTRL78L06ABUTR
L78L08ACUTRL78L08ABUTR
L78L09ACUTRL78L09ABUTR
L78L12ACUTRL78L12ABUTR
L78L15ACUTRL78L15ABUTR
L78L18ACUTRL78L18ABUTR
L78L24ACUTRL78L24ABUTR
3.3 V3.3 V5 V5 V5 V6 V6 V6 V8 V8 V8 V9 V9 V9 V
12 V12 V12 V15 V15 V15 V18 V18 V18 V24 V24 V24 V
SO-8 TO-92
pin 1 = VOUT
pin 2 = GNDpin 3 = VIN
BOTTOM VIEW
SOT-89
L78L00
3/19
GOLDMASTER
MA
X2
20
–MA
X2
49
+5V-Powered, Multichannel RS-232Drivers/Receivers
______________________________________________________________________________________ 17
TOP VIEW
16
15
14
13
12
11
10
9
1
2
3
4
5
6
7
8
VCC
GND
T1OUT
R1INC2+
C1-
V+
C1+
MAX220MAX232
MAX232A R1OUT
T1IN
T2IN
R2OUTR2IN
T2OUT
V-
C2-
DIP/SO
V+
V-
2 +10VC1+C1
C2
1
34
5
11
10
12
9
6
14
7
13
8
T1IN
R1OUT
T2IN
R2OUT
T1OUT
R1IN
T2OUT
R2IN
+5V INPUT
C2+ -10V
C4
RS-232OUTPUTS
RS-232INPUTS
TTL/CMOSINPUTS
TTL/CMOSOUTPUTS
GND15
5k
5k
400k
400k+5V
+5V
+10V TO -10VVOLTAGE INVERTER
+5V TO +10VVOLTAGE DOUBLER
16
C3
C5
CAPACITANCE (µF)DEVICEMAX220MAX232MAX232A
C14.71.00.1
C24.71.00.1
C3101.00.1
C4101.00.1
C54.71.00.1
C2-
C1-
VCC
5k
DIP/SO
18
17
16
15
14
13
12
11
1
2
3
4
5
6
7
8
SHDN
VCC
GND
T1OUTC1-
V+
C1+
(N.C.) EN
R1IN
R1OUT
T1IN
T2INT2OUT
V-
C2-
C2+
109 R2OUTR2IN
MAX222MAX242
20
19
18
17
16
15
14
13
1
2
3
4
5
6
7
8
SHDN
VCC
GND
T1OUTC1-
V+
C1+
(N.C.) EN
N.C.
R1IN
R1OUT
N.C.T2OUT
V-
C2-
C2+
12
11
9
10
T1IN
T2INR2OUT
R2IN
MAX222MAX242
SSOP
( ) ARE FOR MAX222 ONLY.PIN NUMBERS IN TYPICAL OPERATING CIRCUIT ARE FOR DIP/SO PACKAGES ONLY.
V+
V-
3 +10VC1
C2
2
45
6
12
11
13
7
15
8
14
9
T1IN
R1OUT
T2IN
R2OUT
T1OUT
R1IN
T2OUT
R2IN
+5V INPUT
C2+ -10V
C4
RS-232OUTPUTS
RS-232INPUTS
TTL/CMOSINPUTS
TTL/CMOSOUTPUTS
GND16
5k
400k
400k+5V
+5V
+10V TO -10VVOLTAGE INVERTER
VCC+5V TO +10V
VOLTAGE DOUBLER
17
C3
C5
1
10
18SHDN
EN(N.C.)
ALL CAPACITORS = 0.1µF
C2-
C1+C1-
TOP VIEW
Figure 5. MAX220/MAX232/MAX232A Pin Configuration and Typical Operating Circuit
Figure 6. MAX222/MAX242 Pin Configurations and Typical Operating Circuit
GOLDMASTER
1999 Nov 11 6
Philips Semiconductors Preliminary specification
Low power audio DAC UDA1334TS
7 PINNING
Notes
1. 5 V tolerant is only supported if the power supply voltage is between 2.7 and 3.6 V. For lower power supply voltagesthis is maximum 3.3 V tolerant.
2. Because of test issues these pads are not 5 V tolerant and they should be at power supply voltage level or at amaximum of 0.5 V above that level.
SYMBOL PIN PAD TYPE DESCRIPTION
BCK 1 5 V tolerant digital input pad; note 1 bit clock input
WS 2 5 V tolerant digital input pad; note 1 word select input
DATAI 3 5 V tolerant digital input pad; note 1 serial data input
VDDD 4 digital supply pad digital supply voltage
VSSD 5 digital ground pad digital ground
SYSCLK 6 5 V tolerant digital input pad; note 1 system clock input
SFOR1 7 5 V tolerant digital input pad; note 1 serial format select 1
MUTE 8 5 V tolerant digital input pad; note 1 mute control
DEEM 9 5 V tolerant digital input pad; note 1 de-emphasis control
PCS 10 3-level input pad; note 2 power control and sampling frequency select
SFOR0 11 digital input pad; note 2 serial format select 0
Vref(DAC) 12 analog pad DAC reference voltage
VDDA 13 analog supply pad DAC analog supply voltage
VOUTL 14 analog output pad DAC output left
VSSA 15 analog ground pad DAC analog ground
VOUTR 16 analog output pad DAC output right
handbook, halfpage
UDA1334TS
MGL878
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
VOUTRBCK
VSSAWS
VOUTLDATAI
VDDAVDDD
Vref(DAC)VSSD
SFOR0SYSCLK
PCSSFOR1
DEEMMUTE
Fig.2 Pin configuration.
GOLDMASTER
LOW NOISE J-FET DUAL OPERATIONAL AMPLIFIERS
.WIDE COMMON-MODE (UP TO VCC+) AND
DIFFERENTIAL VOLTAGE RANGE. LOW INPUT BIAS AND OFFSET CURRENT. LOW NOISE en = 15nV/√Hz (typ).OUTPUT SHORT-CIRCUIT PROTECTION.HIGH INPUT IMPEDANCE J–FET INPUTSTAGE. LOW HARMONIC DISTORTION : 0.01% (typ). INTERNAL FREQUENCY COMPENSATION. LATCH UP FREE OPERATION.HIGH SLEW RATE : 16V/µs (typ) N
DIP8(Plastic Package)
1
2
3
4 5
6
7
8
-
+ -
+
1 - Output 12 - Inverting input 13 - Non-inverting input 14 - VCC
-
5 - Non-inverting input 26 - Inverting input 27 - Output 28 - VCC
+
PIN CONNECTIONS (top view)
DESCRIPTION
The TL072, TL072A and TL072B are high speedJ–FET input dual operational amplifiers incorporatingwell matched,high voltageJ–FETand bipolar transis-tors in a monolithic integratedcircuit.The devicesfeaturehighslewrates, low inputbiasandoffsetcurrent, and low offset voltage temperaturecoefficient.
TL072TL072A - TL072B
December 1998
DSO8
(Plastic Micropackage)
ORDER CODES
Part Number TemperatureRange
Package
N D
TL072M/AM/BM –55oC, +125oC • •TL072I/AI/BI –40oC, +105oC • •TL072C/AC/BC 0oC, +70oC • •Example : TL072CN
1/9
GOLDMASTER
GOLDMASTER
TSOP48..SB1Vishay Telefunken
1 (7)Rev. 6, 29-Mar-01www.vishay.comDocument Number 82108
Photo Modules for PCM Remote Control Systems
Available types for different carrier frequencies Type fo Type fo
TSOP4830SB1 30 kHz TSOP4833SB1 33 kHz
TSOP4836SB1 36 kHz TSOP4837SB1 36.7 kHz
TSOP4838SB1 38 kHz TSOP4840SB1 40 kHz
TSOP4856SB1 56 kHz
DescriptionThe TSOP48..SB1 – series are miniaturized receiversfor infrared remote control systems. PIN diode andpreamplifier are assembled on lead frame, the epoxypackage is designed as IR filter. The demodulated output signal can directly be de-coded by a microprocessor. TSOP48..SB1 is thestandard IR remote control receiver series, supportingall major transmission codes.
16123
Features� Photo detector and preamplifier in one package
� Internal filter for PCM frequency
� Improved shielding against electrical fielddisturbance
� TTL and CMOS compatibility
� Output active low
� Low power consumption
� High immunity against ambient light
� Continuous data transmission possible (800 bit/s)
� Suitable burst length ≥10 cycles/burst
Block Diagram
9612226
PIN
Input
AGC
ControlCircuit
BandPass
Demodu-lator
30 k�
2
3
1
VS
OUT
GND
GOLDMASTER
TSOP48..SB1Vishay Telefunken
Rev. 6, 29-Mar-01www.vishay.com Document Number 821086 (7)
Dimensions in mm
16777
GOLDMASTER
©2001 Fairchild Semiconductor Corporation
www.fairchildsemi.com
Rev.1.0.2
Features• Precision fixed operating frequency • KA1L0380B/KA1L0380RB (50KHz) • KA1M0380RB (67KHz)• KA1H0380RB (100KHz)• Pulse by pulse over current limiting• Over load protection• Over voltage protection (Min. 23V) • Internal thermal shutdown function• Under voltage lockout• Internal high voltage sense FET• Auto restart (KA1L0380RB/KA1M0380RB/KA1H0380RB)
DescriptionThe Fairchild Power Switch(FPS) product family is speciallydesigned for an off line SMPS with minimal external components. The Fairchild Power Switch(FPS) consist of highvoltage power SenseFET and current mode PWM controller IC.PWM controller features integrated fixed oscillator, under voltage lock out, leading edge blanking, optimized gate turn-on/turn-off driver, thermal shut down protection, over voltage protection, temperature compensated precision current sourcesfor loop compensation and fault protection circuit. compared todiscrete MOSFET and controller or RCC switching convertersolution, a Fairchild Power Switch(FPS) can reduce total component count, design size, weight and at the same timeincrease & efficiency, productivity, and system reliability. It hasa basic platform well suited for cost effective design in either aflyback converter or a forward converter.
TO-220F-4L
1. GND 2. DRAIN 3. VCC 4. FB
1
Internal Block Diagram
#3 VCC
32V
5µA9V
2.5R1R
1mA
0.1V+
−
OVER VOLTAGE S/D
+
−
7.5V
25V
Thermal S/D
S
RQ
Power on reset
+−
L.E.B
S
RQ
OSC
5VVref
Internalbias
Goodlogic
SFET#2 DRAIN
#1 GND
#4 FB
KA1L0380B/KA1L0380RB/KA1M0380RB/KA1H0380RBFairchild Power Switch(FPS)
GOLDMASTER
©2001 Fairchild Semiconductor Corporation
www.fairchildsemi.com
Rev. 1.0.4
Features• Programmable output voltage to 36 volts• Low dynamic output impedance 0.20 typical• Sink current capability of 1.0 to 100mA• Equivalent full-range temperature coefficient of 50ppm/
°C typical• Temperature compensated for operation over full rated
operating temperature range• Low output noise voltage• Fast turn-on response
DescriptionThe KA431/KA431A/KA431L are three-terminal adjustableregulator series with a guaranteed thermal stability overapplicable temperature ranges. The output voltage may beset to any value between VREF (approximately 2.5 volts)and 36 volts with two external resistors These devices have atypical dynamic output impedance of 0.2W Active outputcircuitry provides a very sharp turn on characteristic,making these devices excellent replacement for zener diodesin many applications.
TO-92
8-DIP 8-SOP
1. Ref 2. Anode 3. Cathode1
1 1
SOT-23F
1 2
3
1. Cathode 2. Ref 3. Anode
1.Cathode 2.3.6.7.Anode 4.5.NC 8.Ref
1.Cathode 2.3.4.5.7.NC 6.Anode 8.Ref
Internal Block Diagram
KA431/KA431A/KA431LProgrammable Shunt Regulator
GOLDMASTER
7. Schematic Diagrams
7.1. Schematic diagram of Front Board
- see next page.
GOLDMASTER
A A
B B
C C
D D
E E
44
33
22
11
KEY1
: PO
WER
ON
KEY2
: C
H U
PKE
Y3 :
CH
DO
WN
KEY4
: VO
L U
PKE
Y5 :
VOL
DO
WN
KEY6
: M
ENU
KEY7
: O
K
FRO
NT
1.0
FRO
NT_
With
out_
MIC
OM
B
11
Tues
day,
Jul
y 13
, 200
4
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
FND
0LE
D0
LED
1LE
D2
LED
3
SEG
0
SEG
6
SEG
4
SEG
1
FND
0
SEG
7
FND
3
SEG
3
FND
2FN
D3
SEG
2
FND
2
FND
1
FND
1
FND
4
SEG
5
L1L6L0 L3 L4 L7L5
FND
4
LED
4
FND
4L3
FND
4L4
L2
FND
4L7
REM
OC
ON
KEY
L2 L3 L4 L5 L6L0 L1
SDAT
A
SCLK
1
SEG
0SE
G1
SEG
2SE
G3
SEG
4SE
G5
SEG
6SE
G7
SDAT
A
SCLK
2
LED
0LE
D1
LED
2LE
D3
LED
4
REM
OC
ON
KEY
SDAT
A
SCLK
1SC
LK2
+5V
+5V
+5V
+5V
+5V
+5V
+5V
R11
10K
R12
2.2K
R10
330
R13
2.2K
R14
2.2K
R15
2.2K
U4
74H
CT1
64
1 2 8 9
3 4 5 6 10 11 12 1314 7
A B CLK
CLR
QA
QB
QC
QD
QE
QF
QG
QH
VCC
GN
D
R16
2.2K
BC3
0.1u
F
J1 5267
-7A
1 2 3 4 5 6 7
S7 TAC
T
S4 TAC
T
Q2
PNP_
TR
2
1 3
Q3
PNP_
TR
2
1 3
S5 TAC
T
Q4
PNP_
TR
2
1 3
Q5
PNP_
TR
2
1 3
BC1
0.1u
F
R3
120
R8
120
R5
120
R9
120
R7
120
U2
TSO
P483
8
1 2 3
OU
T
GN
D
VCC
+C
1
220u
F/6.
3V
U1
A-3C
4G
123456789
10111213141516 S1
S2DLES3DPS4NC
NCF
NCCAGB
R4
120
R1
120
R2
120
Q1
PNP_
TR
2
1 3
S1 TAC
T
D3
LED
21
U3
74H
CT1
64
1 2 8 9
3 4 5 6 10 11 12 1314 7
A B CLK
CLR
QA
QB
QC
QD
QE
QF
QG
QH
VCC
GN
D
S2 TAC
T
S3 TAC
T
D1
LED
21
D2
LED
21
BC2
0.1u
F
+C
24.
7uF/
10V
R6
3.3K
S6 TAC
T
GOLDMASTER
23
7.2. Schematic diagram of Main Board
- see next page. -
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
NEAR
TO
TUNE
R1
TUN
ER
1.5
TF40
00Fe
/ TF
5000
Fe
Cus
tom
114
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:S
heet
of
TUN
ER
RS
T
CD
EN
CO
[0..7
]
CD
CLK
OU
T
CD
EN
TUN
ER
RS
T
CD
CLK
OU
T
F22K
LNB
PW
RLN
BP
LT
CO
1C
O2
CO
6C
O5
CO
0
LNB
PW
R
F22K
CO
7
CO
4C
O3
LNB
PLT
+8V
+5VT
+3.3
VT
+3.3
VT
+5V
VD
D
+30V
VC
C
+1.8
V
+1.8
VT
+5VT
+30V
T
+30V
T
LNB
P17
VLN
BP
24V
+3.3
V
+1.8
VT
+5V
L2C
B20
12P
A60
0
BC
5
0.1u
F
R2
47/X
(CB
1608
PM
600)
U3 LN
BP
20P
D
1 2 3 4 5 6 7 8 9 10
20 19 18 17 16 15 14 13 12 11
GN
D0
VC
C1
VC
C2
LNB
AV
SE
LE
NO
SE
LN
C0
NC
1G
ND
1
GN
D3
LNB
B MI
OLF
LLC
EX
TMC
EX
TE
NT
NC
2G
ND
2
L4 BE
AD
-601
R9
X(51
)
C2
3900
pF/X
7R/2
5V
BC
4
0.1u
F
+C
4
470u
F/6.
3V
R4
100
L20
X(B
EA
D-6
01)
C8
0.1u
F/50
V/2
012
C1
100p
F
R3
100
+C
10
4.7u
F
BC
3
0.1u
F
BC
1
0.1u
F
U2
LM78
05 w
ith H
eat s
ink
1
2
3
4
VI
GND
VO
HS
R8
X(4
.7K)
L3 BE
AD
-601
/201
2/50
0mA
+
C11
X(1
0uF/
16V
(SM
D/3
216)
)
C3
3900
pF/X
7R/2
5V
+C
647
uF/5
0V
D2
15M
Q04
0N/R
B06
0L-4
0
12
BC
20.
1uF
R1
X(4
.7K
/AX
IAL/
0.25
Wat
t)
L1C
B20
12P
A60
0
+
C9
100u
F/16
V
C5
100p
F
U1
SA
MS
UN
G T
BM
U24
311I
PP1 2 3 4 5 7 27 288 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26
29 30
6
LNB
A IN
LNB
B O
UT
5V(R
F)A
GC
MO
NIT
OR
5VA VT
IIC D
ATA
IIC C
LK
I Q 5V3.
3V F22
1.8V
RE
SE
TE
RR
OR
OU
TFS
TAR
TV
AIL
DB
CLK D
0
D1
D2
D3
D4
D5
D6
D7
GN
D0
GN
D1
GN
D
R5
100
R6
100
L5 BE
AD
-601
/201
2/50
0mA
D1
P6K
E30
12
+C
722
0uF/
6.3V
U4
PO
LYS
W-R
XE
065
12
R7
X(1K
)
LNB
PLL
CO
LNB
PE
NT
CO
[0..7
]
CD
EN
TUN
ER
_RS
T
AS
DA
AS
CLK
CD
CLK
LNB
PV
SE
LLN
BP
EN
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
TEST
1.5
TF40
00Fe
/ TF
5000
Fe
B
214
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
MO
DEL
_ID
0M
OD
EL_I
D1
MO
DEL
_ID
2
MD
[0..1
5]
MA[
1..2
1]
MA1
2
MA6
MA9
MA2
MA8
MA1
1
MA5
MA4
MA1
MA1
0M
A7
MA3
MD
6
MA1
8
MD
0
MA1
5
MD
3
MA1
4
MD
5
MA2
0
MD
2
MA1
7
MD
7
MA1
3
MD
1
MA1
6
MD
4
MA1
9
MD
13M
D10
MD
15
MD
9
MD
12M
D14
MD
8M
D11
GPI
O[0
..31]
MD
4M
D3
GPI
O0
GPI
O1
GPI
O3
GPI
O2
GPI
O5
GPI
O7
GPI
O6
GPI
O4
GPI
O10
GPI
O11
GPI
O16
GPI
O12
MD
2
GPI
O17
GPI
O18
GPI
O19
GPI
O23
GPI
O24
GPI
O25
GPI
O27
MD
1
KEY_
IN[0
..2]
KEY_
IN2
KEY_
IN0
KEY_
IN1
GPI
O20
GPI
O21
GPI
O22
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V+5
V
R41
X(10
0)
R29
10K
R36
2.2K
R28
2.2K
R10
2.2K
R20
2.2K
R35
2.2K
R16
10K
R40
X(10
0)
R12
2.2K
JP1
X(52
368-
0401
)
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
2526
2728
2930
3132
3334
3536
3738
3940
R37
2.2K
R30
2.2K
R11
2.2K
R27
2.2K
R23
2.2K
R34
2.2K
R18
2.2K
R26
2.2K
R14
2.2K
R13
2.2K
R25
2.2K
R22
2.2K
R33
2.2K
R19
2.2K
R15
10K
R38
2.2K
R31
2.2K
R24
2.2K
PR1
2.2K
X4
18
27
36
45
R32
4.7K
R21
2.2K
R17
2.2K
R39
X(10
0)
MA[
1..2
1]
MD
[0..1
5]
RO
MBD
INM
ON
CS
MO
DEL
_ID
0M
OD
EL_I
D1
MO
DEL
_ID
2
GPI
O[0
..31]
KEY_
IN[0
..2]
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
VULC
AN1.
5
TF40
00Fe
/ TF
5000
Fe
C
314
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
SD_A
D14
KEY_IN2KEY_IN1
CO
[0..7
]
GPI
O4
GPI
O5
KEY_IN0
SD_A
D13
SD_A
D12
SD_A
D11
SD_A
D10
SD_A
D9
SD_A
D8
SD_A
D7
SD_A
D6
SD_A
D5
SD_A
D4
SD_A
D3
SD_A
D2
SD_D
T15
SD_D
T14
SD_D
T13
SD_D
T12
SD_D
T11
SD_D
T10
SD_D
T9SD
_DT8
SD_D
T7SD
_DT6
SD_D
T5SD
_DT4
SD_D
T3SD
_DT2
SD_D
T1SD
_DT0
SD_A
D1
SD_A
D0
RESET
SD_A
D[0
..14]
SD_D
T[0.
.15]
RES
ET
XTN
XTN
CO0CO1
PWM
CO2
CO6
SCLK
PWM
CO3CO4CO5
CO7
MA2
0M
A19
MA1
8M
A17
MA1
6M
A15
MA1
3M
A14
MA1
2M
A11
MA9
MA1
0
MA5
MA6
MA7
MA8
MA3
MA2
MA1
MA4
GPI
O[0
..31]
MA[
1..2
1]
MD
[0..1
5]
MD
14M
D13
MD
12
MD
15
MD
10M
D9
MD
8
MD
11
MD
6M
D5
MD
4
MD
7
SCLK
MD
2M
D1
MD
0
MD
3
GPI
O0
GPI
O1
GPI
O2
GPI
O3
GPI
O7
GPI
O10
GPI
O11
GPI
O12
GPI
O25
MA2
1
GPI
O24
GPI
O6
GPI
O13
GPI
O8
GPI
O9
KEY_
IN[0
..2]
GPI
O30
GPI
O31
GPI
O28
GPI
O15
GPI
O14
GPI
O16
GPI
O17
GPI
O18
GPI
O19
GPI
O20
GPI
O21
GPI
O22
GPI
O23
GPI
O27
+2.5
V
+3.3
V
+1.8
V
+1.8
V
+3.3
V
+3.3
V+1
.8V
+3.3
V
+3.3
V
+3.3
V
+1.8
V
+3.3
V
+3.3
V
+1.8
V+3
.3V
+3.3
V
+3.3
V
F1LF
A20-
2A1E
104M
13
2
SS G
BC12
0.1u
F
BC9
0.1u
F
C19
0.01
uF/X
7R
+C
22
220u
F/6.
3VBC
150.
1uF
L7 BEAD
-601
BC21
0.1u
F
R52
47
BC24
0.1u
F
R55
2.2K
BC6
0.1u
F
R50
47
+C
12
1uF/
16V
R44
2.2K
BC17
0.1u
F
R64
5.1K
U6
X(KA
5SD
KAS0
1TSN
)
8 7 6 5
1 2 3 4
XOU
TVS
S1 NC
CLK
XIN
VDD
XTU
NE
VSS0
C20
X(4p
F)
R60
787(
1%)
BC22
0.1u
F
R54
2.2K
R53
47
R51
47
R42
47
L6 BEAD
-601
R46
2K
BC19
0.1u
F
R48
CB1
608G
M12
1
R59
787(
1%)
R61
24
R49
47
BC27
0.1u
F
L8 BEAD
-601
Y1X(
27M
Hz)
BC10
0.1u
F
C17
1nF
BC18
0.1u
F
+C
21
220u
F/6.
3VBC
130.
1uF
R47
47
R58
1K
R45
2K
C15
1nF
BC25
0.1u
F
VCXO
127
MH
z
2
4
13
GND
VCC
VIN
CLK
R63
10K
+C
14
47uF
/16V
BC11
0.1u
F
BC28
0.1u
F
BC8
0.1u
F
R62
100K
C18
1nF
R57
47
BC23
0.1u
F
R56
47
U5
IBM
39ST
B025
0xPB
A05C
D21
C22 B23
A22
W21 Y2
3V2
0W
22W
23 V21
V22
U21
U22
U23 T21
P20
R23 P21
P22
N21
N22
N23
M21
M22
M23 L23
L22
L21
K21
K20
J23
J22
J21
H23
H22
G23
G22
G21 F22
E23
E22
B5C6B19B18C16A16A12D14B14B12
L3 J1 J2 L2 L1 K2 K3 M3
M2
N1
N2 P2 P3 P4 R1
R3 T1 T2 U1
U2 V2 B1 C2
D3
D1 F4 E2 E1 F3 F2 G3
G2
G1
H3
H2
H1 J3
AB5
AC5
C19
B21
A20
D18
M1
N3
R2
V4 W3
B10
D10
B9 D6
C5
A4 B4 A3 C4
B3 A2 K22
Y22
Y21
AA6
F21
R22
K4 AB15
Y6
AC23AC18
V23Y4Y8Y12Y16Y20AA21AA23AB22AC10AC14
A1A6A10A14A18A23AA3AB2AC1AC6B2B22C3C21D4D8D12D16D20F1F23H4H20K1K23M4M20P1P23T4T20V1
D9D11D13D15J4J20L4L20N4N20R4R20Y9Y11Y13Y15
D5D7D17D19E4E20G4G20U4U20W4W20Y5Y7Y17
AA12
AA4
T3 U3
C1D2H21
AA1
F20
AA2
AB1
Y2 C11
A5 B8A11
C7
C9
A7B6 C8
A9 B11
B7 A8 C10
B13
A19
C15
C12
C17
A17
A15
C18
B16
C14
A13
B17
B15
C13
AA8
AC3
AA9AB4AB8AC8C20
AC7
AA5
B20
D23 E21
C23
AA11
AC9
R21T22D22T23A21
W1
AA16
AA15AC15
AC17AB17
AB16AC16
AA17AB18AA18AC19AB19Y18AA19AC20AB20AC21AA20AB21AC22AB23AA22
AA7AB7AB9Y10AA10AB10AB11AC11AB12AC12AC13AB13AA13AB14AA14Y14
Y19
AC2
V3E3
W2AB6AC4Y1AB3Y3
nBI_
CS0
nBI_
CS1
nBI_
CS2
nBI_
CS3
BI_A
DD
RES
S11
BI_A
DD
RES
S12
BI_A
DD
RES
S13
BI_A
DD
RES
S14
BI_A
DD
RES
S15
BI_A
DD
RES
S16
BI_A
DD
RES
S17
BI_A
DD
RES
S18
BI_A
DD
RES
S19
BI_A
DD
RES
S20
BI_A
DD
RES
S21
BI_A
DD
RES
S22
BI_A
DD
RES
S23
BI_A
DD
RES
S24
BI_A
DD
RES
S25
BI_A
DD
RES
S26
BI_A
DD
RES
S27
BI_A
DD
RES
S28
BI_A
DD
RES
S29
BI_A
DD
RES
S30
BI_A
DD
RES
S31_
WBE
1
BI_D
ATA0
BI_D
ATA1
BI_D
ATA2
BI_D
ATA3
BI_D
ATA4
BI_D
ATA5
BI_D
ATA6
BI_D
ATA7
BI_D
ATA8
BI_D
ATA9
BI_D
ATA1
0BI
_DAT
A11
BI_D
ATA1
2BI
_DAT
A13
BI_D
ATA1
4BI
_DAT
A15
CI_CLOCKCI_DATA_ENABLE
CI_DATA0CI_DATA1CI_DATA2CI_DATA3CI_DATA4CI_DATA5CI_DATA6CI_DATA7
nSD
0_C
ASSD
0_C
LKnS
D0_
CS0
SD0_
DQ
MH
SD0_
DQ
ML
nSD
0_R
ASnS
D0_
WE
SD0_
ADD
RES
S0(M
SB)
SD0_
ADD
RES
S1SD
0_AD
DR
ESS2
SD0_
ADD
RES
S3SD
0_AD
DR
ESS4
SD0_
ADD
RES
S5SD
0_AD
DR
ESS6
SD0_
ADD
RES
S7SD
0_AD
DR
ESS8
SD0_
ADD
RES
S9SD
0_AD
DR
ESS1
0SD
0_AD
DR
ESS1
1SD
0_AD
DR
ESS1
2SD
0_AD
DR
ESS1
3
SD0_
DAT
A0SD
0_D
ATA1
SD0_
DAT
A2SD
0_D
ATA3
SD0_
DAT
A4SD
0_D
ATA5
SD0_
DAT
A6SD
0_D
ATA7
SD0_
DAT
A8SD
0_D
ATA9
SD0_
DAT
A10
SD0_
DAT
A11
SD0_
DAT
A12
SD0_
DAT
A13
SD0_
DAT
A14
SD0_
DAT
A15
GPI
O_2
GPI
O_3
GPI
O_4
GPI
O_5
GPI
O_6
GPI
O_7
GPI
O_8
GPI
O_9
GPI
O_1
0G
PIO
_11
GPI
O_1
2G
PIO
_13
GPI
O_1
4G
PIO
_15
GPI
O_1
6G
PIO
_17
GPI
O_1
8G
PIO
_19
GPI
O_2
0G
PIO
_21
GPI
O_2
2G
PIO
_23
GPI
O_2
4G
PIO
_25
GPI
O_2
6G
PIO
_27
GPI
O_2
8G
PIO
_29
GPI
O_3
0G
PIO
_31
GPI
O_1
GND44GND43
GND32GND33GND34GND35GND36GND37GND38GND39GND40GND41GND42
GND0GND1GND2GND3GND4GND5GND6GND7GND8GND9GND10GND11GND12GND13GND14GND15GND16GND17GND18GND19GND20GND21GND22GND23GND24GND25GND26GND27GND28GND29GND30GND31
VDD18_0VDD18_1VDD18_2VDD18_3VDD18_4VDD18_5VDD18_6VDD18_7VDD18_8VDD18_9VDD18_10VDD18_11VDD18_12VDD18_13VDD18_14VDD18_15
VDD33_0VDD33_1VDD33_2VDD33_3VDD33_4VDD33_5VDD33_6VDD33_7VDD33_8VDD33_9VDD33_10VDD33_11VDD33_12VDD33_13VDD33_14
27M
HZ_
CLK
nSYS
TEM
_RES
ET
I2C
0_SC
LI2
C0_
SDA
nINT0nINT1nINT2
DA_
BIT_
CLO
CK
DA_
SPD
IFD
A_LR
_CLO
CK
DA_
OS_
CLO
CK
DA_
SER
IAL_
DAT
A
DAC
1_VO
UT3
DAC
1_C
REF
_OU
T
DAC
1_VO
UT2
DAC
1_G
REF
_OU
T
DAC
1_VO
UT1
DAC
1_VR
EF_I
N
DAC
1_R
REF
_OU
T
DAC
1_AV
DD
0D
AC1_
AVD
D1
DAC
1_AV
DD
2D
AC1_
AVD
D3
DAC
1_AG
ND
0D
AC1_
AGN
D1
DAC
1_AG
ND
2
DAC
2_VO
UT3
DAC
2_C
REF
_OU
T
DAC
2_VO
UT2
DAC
2_G
REF
_OU
T
DAC
2_VO
UT1
DAC
2_R
REF
_OU
T
DAC
2_VR
EF_I
N
DAC
2_AV
DD
0D
AC2_
AVD
D1
DAC
2_AV
DD
2D
AC2_
AVD
D3
DAC
2_AG
ND
0D
AC2_
AGN
D1
DAC
2_AG
ND
2
AUD
_GN
DA0
AUD
_GN
DA1
SC0_CLKSC0_DETECT
SC0_IOSC0_RESET
SC0_VCC
AUD
_VD
DA0
AUD
_VD
DA1
nBI_
OE
BI_R
EAD
YBI
_RW
nBI_
WBE
0
CLK
_VD
DA
CLK
_GN
DA
SC1_CLKSC1_DETECT
SC1_IOSC1_RESET
SC1_VCC
SD0_
ADD
RES
S14
nSD1_CAS
SD1_CLKnSD1_CS0
SD1_DQMHSD1_DQML
nSD1_RASnSD1_WE
SD1_ADDRESS0(MSB)SD1_ADDRESS1SD1_ADDRESS2SD1_ADDRESS3SD1_ADDRESS4SD1_ADDRESS5SD1_ADDRESS6SD1_ADDRESS7SD1_ADDRESS8SD1_ADDRESS9
SD1_ADDRESS10SD1_ADDRESS11SD1_ADDRESS12SD1_ADDRESS13SD1_ADDRESS14
SD1_DATA0SD1_DATA1SD1_DATA2SD1_DATA3SD1_DATA4SD1_DATA5SD1_DATA6SD1_DATA7SD1_DATA8SD1_DATA9
SD1_DATA10SD1_DATA11SD1_DATA12SD1_DATA13SD1_DATA14SD1_DATA15
VDD33_15GPI
O_0
nEDMAC3_ACKnEDMAC3_REQ
nRW_HALTRW_TCKRW_TDI
RW_TDORW_TMS
nRW_TRST
BC14
0.1u
FBC
200.
1uF
+C
13
47uF
/16V
C16
1nF
BC26
0.1u
F
BC7
0.1u
F
BC16
0.1u
F
CO
[0..7
]
TXD
1R
XD1
BLU
ENL
GR
EEN
NL
RED
NL
SD_R
ASSD
_DQ
ML
SD_W
E
SD_D
QM
HSD
_CS0
SD_C
LKSD
_CAS
SD_A
D[0
..14]
SD_D
T[0.
.15]
RES
ET
CS0
CS1
MO
EN
MW
EN
SC0_
CLK
SC0_
DET
ECT
SC0_
IOSC
0_R
ESET
SC0_
VCC
MO
DEL
_ID
0M
OD
EL_I
D1
MO
DEL
_ID
2
CIC
S
DAC
WC
LKD
ACC
LKD
ACD
ATA
DAC
BCLK
CD
ENC
DC
LK
GPI
O[0
..31]
SPD
IF
MA[
1..2
1]
MD
[0..1
5]
LNBP
ENLN
BPLL
CO
LNBP
ENT
LNBP
VSEL
TUN
ER_R
ST
FPC
_DAT
AFP
C_C
LK1
FPC
_CLK
0
ASC
LKAS
DA
DAC
MU
TEKE
YIN
REM
IN
SCLK
KEY_
IN[0
..2]
FSW
_TVO
NFS
W_T
VWID
E
FBLA
NK
RXD
2TX
D2
MO
DEM
_RST
CVB
SNL
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FLAS
H1.
5
TF40
00Fe
/ TF
5000
Fe
B
414
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
MA1
5
MD
0
MA5
MA1
8
RST
_CO
N
MD
9
MD
14
RES
ETB
MD
4
MA2
MA1
2
MA6
MD
1
MA1
9
MA1
6
RES
ETB
MD
12M
D11
MD
7
MD
5
MA3
MA[
1..2
1]
MA1
1
MW
EN
RST
_CO
N
MA2
0
MO
EN
MA9
MD
2
MD
[0..1
5]
MA1
4M
A13
MA7
MD
15
MA2
1
MD
6
MA4
MA1
MD
8
MD
13
MA8
MD
3
MA1
0
F_R
ESET
F_R
ESET
MA1
7
MD
10
F_R
ESET
MA2
0
+3.3
V
+3.3
V
+12V
FM
+3.3
V
+12V
AS
+3.3
V
+12V
FM
+12V
AS
+3.3
V
+12V
FM
+3.3
V
+3.3
V
R15
9X(
4.7K
)
Q23
X(KS
T440
1)2
13
R16
3
X(10
K)U
24D
X(74
LVC
02A)
11 1213
14 7
BC56
X(0.
1uF)
R16
2X(
100)
C83
100p
F/25
V
Q22
X(KS
T440
1)
2
13
U24
C
X(74
LVC
02A)
8 910
14 7
R11
0X(
0)
Q25
X(KS
R11
01)
2
13
U24
A
X(74
LVC
02A)
2 31
14 7
R15
6
X(X(
0))
Q21
X(KS
T440
3)2
1 3
Q24
X(KS
R11
01)
2
13
R15
7X(
10K)
R16
0X(
22K)
U24
B
X(74
LVC
02A)
5 64
14 7
R16
1X(
10K)
R15
5X(
22K)
U8
24LC
02B-
SN
8 7 6 5
1 2 3 4
VCC
WP
SCL
SDA
A0 A1 A3 GN
D
BC29
0.1u
F
BC30
0.1u
F
R15
30
U7
SST3
9VF8
00A/
MBM
29LV
800B
A25 24 23 22 21 20 19 18 8 7 6 5 4 3 2 1 48 17
29 31 33 35 38 40 42 44 30 32 34 36 39 41 43 45 47
11 26 28 13
372746
1216
9 10 1514
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9/ID
A10
A11
A12
A13
A14
A15
A16
A17
O0
O1
O2
O3
O4
O5
O6
O7
O8
O9
O10
O11
O12
O13
O14
O15
BYTE
WE
CE
OE
VPP
VCCGNDGND
RP
A18
NC
NC
NC
WP
R15
4X(
10K)
MA2
11
R15
8X(
10K)
MA[
1..2
1]M
D[0
..15]
RO
MBD
IN
ASC
LK
MO
EN
ASD
A
MO
DEM
_RS
TM
WEN
nFLA
SHC
S
RES
ET
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
SDR
AM1.
5
TF40
00Fe
/ TF
5000
Fe
B
514
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
SD_A
D13
SD_A
D12
SD_A
D14
BS0
SD_D
T4SD
_DT5
SD_D
T7SD
_DT6
SD_D
T2SD
_DT3
SD_D
T1SD
_DT0
SD_D
T10
SD_D
T11
SD_D
T9SD
_DT8
SD_D
T12
SD_D
T15
SD_D
T13
SD_D
T14
BS0
SD_A
D12
SD_A
D11
SD_A
D[0
..14]
SD_D
T[0.
.15]
SD_A
D0
SD_A
D1
SD_A
D3
SD_A
D2
SD_A
D6
SD_A
D7
SD_A
D5
SD_A
D4
SD_A
D8
SD_A
D9
SD_A
D10
+3.3
V
+3.3
V
+3.3
V
BC34
0.1u
F
U9
K4S6
4163
2
23 24 25 26 29 30 31 32 33 34 22 35 2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53 39 15 16 17 18 19 38 37
1 14 52461263 9 43 4928 41 36
20 21
27 54 40
BA0
BA1
BA2
BA3
BA4
BA5
BA6
BA7
BA8
BA9
BA10
BA11
BD0
BD1
BD2
BD3
BD4
BD5
BD6
BD7
BD8
BD9
BD10
BD11
BD12
BD13
BD14
BD15
UD
QM
LDQ
MW
EC
ASR
ASC
SC
LKC
KE
VCC
0VC
C1
VSSQ
3VS
SQ2
VSSQ
1VS
SQ0
VCC
Q0
VCC
Q1
VCC
Q2
VCC
Q3
VSS0
VSS1
NC
0
BNK0
BNK1
VCC
2
VSS2
NC
1
BC31
0.1u
F
R65
0
BC35
0.1u
F
BC32
0.1u
F
R66
X(0)
BC36
0.1u
F
L9 BEAD
-601
L10
BEAD
-601
BC33
0.1u
F
SD_C
ASSD
_WE
SD_R
AS
SD_D
QM
H
SD_C
LK
SD_D
QM
L
SD_D
T[0.
.15]
SD_A
D[0
..14]
SD_C
S0
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
ASIC
1.5
TF40
00Fe
/ TF
5000
Fe
B
614
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
MA18
MO
NC
S
MA[
1..2
1]
SCL5
V
SCLK
nRESETIN
CIC
S
MD1
SDA5V
nFLA
SHC
S
MD
[0..1
5]
RES
ET
MA1
7
MD0
SCL5
V
MW
EN
MD7
CICS
MD2
RO
MBD
IN
nRES
ETIN
RESET
CS0
MA19
SCLK
MWEN
CS1
SDA5
V
+5V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
R67
2.2K
BC37
0.1u
F
BC39
0.1u
F
U10
TF30
1SC
15
1 2 3 4 5 6 7 8 9 10 11
1213141516171819202122
2324252627282930313233
3435363738394041424344
TDI/I
O0
IO1
IO2
GN
D0
IO3
IO4
TMS/
IO5
IO6
VCC
0IO
7G
ND
1
IO8IO9IO10IO11GND2VCC1IO12IO13IO14IO15IO16
IO17
GN
D3
IO18
TCK/
IO19
IO20
IO21
VCC
2G
ND
4IO
22TD
O/IO
23IO
24
IO25IO26
GND5INPUT0/GCLK1
INPUT1/OE1INPUT2/GCLRn
INPUT3/OE2/GCLK2VCC3IO27IO28IO29
BC38
0.1u
F
C23
0.47
uF/2
012
R70
X(2.
2K)
R68
10K
U11
ELM
9727
NBA
123
VCCGNDOUT
R69
X(2.
2K)
TP_R
ST1
1
R71
2.2K
R72
2.2K
MD
[0..1
5]
nFLA
SHC
S
SCLK
CS1
MW
EN
MA[
1..2
1]
RES
ET
MO
NC
S
RO
MBD
IN
CIC
S
CS0
SDA5
V
SCL5
V
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
(+3.3V)
(+24V)
(+15V)
(+30V)
(+8V)
(+17V)
POW
ER1.
5
TF40
00Fe
/ TF
5000
Fe
B
714
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
+2.5
V+3
.3V
+30V
+15V
S
+3.3
V
+24V
S
+30V
S+1
2VAS
+3.3
VS
+15V
S
+8VS
+17V
S
+17V
SLN
BP17
V
+24V
SLN
BP24
V
+3.3
V
+1.8
V
+3.3
V+3
.3VS
+8VS
+8V
BC42
0.1u
F
U12
LD11
17AD
T18
1
23
GNDVOU
TVI
N
+C
3522
0uF/
6.3V
+C
3610
0uF/
16V
BC41
0.1u
F
R74
0/20
12
+ C25
100u
F/30
VC
270.
1uF/
50V/
2012
BC40
0.1u
F
BC44
0.1u
F
C24
0.47
uF/2
012
C30
0.1u
F/50
V/20
12
D3
1N40
01
12
U13
MIC
3910
0-2.
5BS
1
2
3
4
VIN
GND
VOU
T
TAB
+ C26
220u
F/6.
3V
D5
X(D
IOD
E_D
IP)
12
U14
78L1
21
2
3IN
GNDOU
T
C34
0.1u
F/50
V/20
12
+ C29
100u
F/30
V
JP2
5267
-12A
123456789101112
C31
0.1u
F/50
V/20
12
BC43
0.1u
FL1
1
X(BE
AD-6
01/2
012/
500m
A)
+
C33
100u
F/25
V
C32
0.1u
F/50
V/20
12
D4
X(D
IOD
E_D
IP)
12
R73
X(0/
2012
)
+ C28
220u
F/6.
3V
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
RS2
321.
5
TF40
00Fe
/ TF
5000
Fe
B
814
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
+5VL
+5VL
RXD
PC
TXD
PC
TXD
RXD
TXD
RXD
+5V
+5V
C37
0.47
uF/2
012
U15
MAX
232A
CPE
11 10 12 9 1 3 4 5
14 7 13 8 2 616 15
T1IN
T2IN
R1O
R2O
C1+
C1-
C2+
C2-
T1O
T2O
R1I
NR
2IN V+ V-
VCC
GN
D
R16
547
0
R77 4.7
JP7
X(52
67-4
A)
1 2 3 4
BC45
0.1u
F
BC46
0.1u
F
R75
100
C39
0.47
uF/2
012
C38
0.47
uF/2
012
P1
DB9
(MAL
E)
594837261
JP3
TOTX
178A
1 2 3
R76
100
C41
100p
F
C42
0.47
uF/2
012
R16
447
0
C40
100p
F
SPD
IF
RXD
1
TXD
1
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
AUD
IO D
AC1.
5
TF40
00Fe
/ TF
5000
Fe
B
914
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
DAC
MU
TE
DAC
BCLK
DAC
DAT
AD
ACW
CLK
DAC
CLK
DAC
_VR
EFD
AC_R
IGH
TD
AC_L
EFT
DAC
BCLK
DAC
MU
TE
DAC
_VR
EFD
ACC
LK
DAC
WC
LK
AUD
IOR
DAC
DAT
A
AUD
IOL
DAC
_RIG
HT
DAC
_LEF
T
+5V
+12V
AS
+12V
AS
+12V
S
+3.3
V
+12V
A
+3.3
V
+12V
U17
UD
A133
4TS
9101112131415161 2 3 4 5 6 7 8
L3M
OD
EL3
CLK
TEST
VREF
VDD
AVO
LVS
SAVO
RBC
KW
SD
ATAI
VDD
DVS
SDSY
SCLK
APPS
ELL3
DAT
A
BC47
0.1u
F
BC50
0.1u
F
BC49
0.1u
F
C43
47pF
R82
22K
R84
22K
R81
68K
BC52
X(0.
1uF)
R86
5.6K
+
C48
100u
F/16
V
+-
U16
A
TL07
2
321
84
R85
5.6K
R83
68K
BC51
0.1u
F
+ C45
47uF
/16V
BC48
0.1u
F
C44
0.47
uF/2
012
C47
0.47
uF/2
012
C46
47pF
+-
U16
B
TL07
2
567
U18
X(PC
M17
25U
/PC
M17
33U
)
8910111213141 2 3 4 5 6 7
VCC
VOL
NC
1N
C2
DM
FOR
MAT
SCKI
LRC
IND
INBC
KIN
NC
0C
APVO
RG
ND
L12
X
DAC
CLK
DAC
MU
TE
DAC
DAT
AD
ACW
CLK
AUD
IOR
AUD
IOL
DAC
BCLK
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
TV S
CART
*AUD
IO G
ND
*VID
EO O
UT G
ND*V
IDEO
IN
GND
*RED
(CHR
OMA)
*RED
GND
*GRE
EN
*GRE
EN G
ND
*BLU
E
*BLU
E RE
TURN
*FAS
T BL
ANKI
NG
*FAS
T BL
ANK
GND
*AUD
IO R
IGHT
OUT
*AUD
IO R
IGHT
IN
*AUD
IO L
EFT
IN
*AUD
IO L
EFT
OUT
*NC
*NC
*SHI
ELD
*VID
EO O
UT(Y)
*VID
EO I
N
*FUN
CITO
N SW
AV O
UTP
UT
1.5
TF40
00Fe
/ TF
5000
Fe
C
1014
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
AUD
IOR
AUD
IOR
OU
T
CVB
S
TAR
OU
T
TALO
UT
AUD
IOR
AUD
IOL
AUD
IOL
AUD
IOLO
UT
TALO
UT
TAR
OU
T
TFSW
TCVB
S
TRED
TBLA
NK
TGR
EEN
TBLU
E
CIN
CH
CVB
S
AUD
IOLO
UT
AUD
IOR
OU
T
TGR
EEN
CVB
S
TFSW
TBLA
NK
CVB
S
CIN
CH
CVB
S
TCVB
S
TRED
TBLU
E
+12V
A
+12V
A
+5V
+5V
+12V
A
+12V
A
+12V
A
+5V
+8V
+5V
+8V
+12V
A
+3.3
V
+12V
A
+12V
A
+12V
A
+12V
A
+8V
+8V
+8V
+8V
+8V
+8V
+8V
Q4
KSR
1101
2
13
R90
1K
R12
01.
2K
R91
2.2K
R11
11.
2K
R10
847
K
R10
7
470
C66
75pF
D9
KDS2
26
2
3
1
R10
4
560
R12
7
68
R97
300
R99
68
R11
52.
2K
R11
4
560
R89
47K
D7
KDS2
26
2
3
1
C55
150p
F
R13
1
560
+
C49
4.7u
F/16
V
R12
830
0
L15
1.8u
H
L17
1.8u
H
R96
5.6K
C59
22pF
R10
2
270
C52 47
0pF
C56
75pF
C70
75pF
D10
KDS2
26
2
3
1
R10
9
1K
R11
6
470
R12
215
0
R95
180
R11
2
68
Q1
KST4
403
2
1 3
R12
3
560
R11
747
K
R15
122
0
R15
222
0
R94
1K
Q6
KST4
403
2
1 3
+
C68
470u
F/6.
3V
L18
1.8u
H
L14
BEAD
-601
C64
470p
F
+
C51
4.7u
F/16
V
Q7
KSR
1101
2
13
R12
61.
2K
D6
KDS2
26
2
3
1
R10
16.
8K
Q12
KST4
403
2
1 3
D11
KDS2
26
2
3
1
R13
2
560
C63
22pF
R10
515
0
D12
KDS2
26
2
3
1
C60
150p
F
+
C57
4.7u
F/16
V
Q3
KST4
401
2
13
J1 RC
A3PI
N
1 2 3 4 5
1 2 3 4 5
Q9
KST4
403
2
1 3
R12
530
0
C50 47
0pF
R15
022
0
R87
2.2K
Q10
KST4
403
2
1 3
D8
KDS2
26
2
3
1
C67
22pF
Q11
KST4
403
2
1 3
R92
470
R93
47K
R13
015
0
C58
470p
F
Q2
KST4
403
2
1 3
R10
34.
7K
Q13
KST4
403
2
1 3
C65
150p
F
SCAR
T1
2203
-21S
T
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
C61
75pF
Q8
KST4
403
2
1 3
R11
315
0
C54
22pF
R88
470
R10
62.
2K
Q19
KST4
401
2
13
Q20
KST4
401
2
13
L13
BEAD
-601
Q5
KSR
1101
2
13
R12
9
68
R12
1
68
R98
300
+
C53
470u
F/6.
3V
D14
KDS2
26
2
3
1
+
C62
4.7u
F/16
VR
119
1K
R10
018
0
D13
KDS2
26
2
3
1
L16
1.8u
H
Q18
KST4
401
2
13
C69
150p
F
RFV
OU
T
AUD
IOR
AUD
IOL
CVB
SNL
RED
NL
GR
EEN
NL
FSW
_TVW
IDE
FBLA
NK
FSW
_TVO
N
BLU
ENL
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
RF
MO
DU
LATO
R1.
5
TF40
00Fe
/ TF
5000
Fe
B
1114
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
RFA
UD
IO
RFA
UD
IO
+8VS
+12V
A
+5V
Q14 KS
T440
32
1 3
U19
LM78
051
2
3IN
GNDOU
T
U20 RM
UP7
4055
AB
3 2 5
1
6
7 8 94 10
AUD
IO
VID
EO
SDA
MB+
SCL
GN
D0
GN
D1
GN
D2
BB+
GN
D3
R13
3
2.2K
BC53
0.1u
F
R13
5
27K
R13
7
27K
+
C71
100u
F/16
V
R13
4
39K
R13
6
910
RFV
OU
T
SDA5
VSC
L5V
AUD
IOL
AUD
IOR
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FRO
NT
NO
RM
AL1.
5
TF40
00Fe
/ TF
5000
Fe
B
1214
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
FREM
INKE
YSC
LK0
SCLK
1
SDAT
A
FREM
INR
EMIN
FPC
_CLK
0SC
LK0
FPC
_CLK
1SC
LK1
FPC
_DAT
ASD
ATA
KEYI
NKE
Y
REM
INKE
YIN
FPC
_CLK
0FP
C_C
LK1
FPC
_DAT
A
+5V
+3.3
V
+8VS
+5VF
+5VF
BC54
0.1u
F
U21
LM78
051
2
3IN
GNDOU
T
U22
F74
LVC
14
1312
14 7
C86
220p
F
C74
X(22
pF)
U22
C74
LVC
14
56
14 7
L19
X(BE
AD-6
01)
C73
X(22
0pF)
U22
A74
LVC
14
12
14 7
U22
E74
LVC
14
1110
14 7
+
C72
100u
F/16
V
R13
8
2K
C84
220p
F
JP5
5267
-7A
1 2 3 4 5 6 7
U22
D74
LVC
14
98
14 7
R13
910
K
U22
B74
LVC
14
34
14 7
BC55
0.1u
F
C85
220p
F
REM
INKE
YIN
FPC
_CLK
0FP
C_C
LK1
FPC
_DAT
A
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FRO
NT
MIN
I1.
5
TF40
00Fe
/ TF
5000
Fe
B
1314
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
LED
1LE
D2
FKEY
IN2
KEY_
IN0
KEY_
IN2
LED
1
KEY_
IN1
FREM
INR
EMIN
KEY_
IN[0
..2]
FKEY
IN1
FKEY
IN0
FKEY
IN2
LED
0
LED
OU
T1LE
DO
UT0
FKEY
IN1
LED
0
LED
OU
T2FR
EMIN
FKEY
IN0
LED
2
REM
IN
LED
OU
T0LE
DO
UT1
LED
OU
T2
+5V
+3.3
V+3
.3V
+3.3
V
+3.3
V
R14
3X(
4.7K
)
C80
X(0.
1uF)
U23
AX(
74LV
C14
)
12
14 7
C76
X
Q15
X(KS
R11
01)
2
13
R14
0X(
560)
R14
1X(
560)
Q16
X(KS
R11
01)
2
13
R14
2X(
560)
Q17
X(KS
R11
01)
2
13
U23
DX(
74LV
C14
)
98
14 7
C78
X(0.
1uF)
R14
5X(
4.7K
)
C77
X
C82
X(0.
1uF)
C79
X(X(
220p
F))
U23
EX(
74LV
C14
)
1110
14 7
U23
CX(
74LV
C14
)
56
14 7
U23
FX(
74LV
C14
)
1312
14 7
R14
4X(
4.7K
)
C75
X
C81
X(0.
1uF)
U23
BX(
74LV
C14
)
34
14 7
JP6
X(52
67-9
A)
1 2 3 4 5 6 7 8 9
KEY_
IN[0
..2]
FPC
_DAT
A
REM
IN
FPC
_CLK
1FP
C_C
LK0
GOLDMASTER
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
SMAR
T C
ARD
1.5
TF40
00Fe
/ TF
5000
Fe
B
1414
Wed
nesd
ay, O
ctob
er 0
5, 2
005
Title
Size
Doc
umen
t Num
ber
Rev
Dat
e:Sh
eet
of
SC0_
VCC
RXD
2
SC0_
CLK
SC0_
RST
SC_C
LOC
K
SC0_
VCC
SC0_
CLK
SC_C
LOC
KTX
D2
SC0_
DET
SC0_
IO
TXD
2
SC0_
RST
RXD
2
SC_C
LOC
K
SC0_
DET
SC0_
IO
+3.3
V
+3.3
V
+5V
+3.3
V+3
.3V
+3.3
V
R14
91.
2K
U25
B
X(74
LVC
02A)
5 64
14 7
U25
C
X(74
LVC
02A)
8 910
14 7
L22
X(BE
AD-6
01)
JP4
X(52
67-1
0A)
1 2 3 4 5 6 7 8 9 10
R14
62.
2K
OSC
1X(
6MH
z)
2
4
13
GND
VCC
VIN
CLK
L23
X(BE
AD-6
01)U
25A
X(74
LVC
02A)
231
147
BC57
X(0.
1uF)
R78
10K
R79
10K
R14
72.
2K
R80
2.2K
U25
D
X(74
LVC
02A)
11 1213
14 7
R14
82.
2K
L21
X(BE
AD-6
01)
BC58
X(0.
1uF)
MO
DEL
_ID
2
SC0_
VCC
SC0_
DET
ECT
RXD
2
SC0_
CLK
TXD
2
SC0_
IOSC
0_R
ESET
GOLDMASTER
24
7.3. Schematic diagram of SMPS (power supply)
- see next page. -
GOLDMASTER
GOLDMASTER