ຶৰۇǖNBY49560NBY5925F NBY49560NBY5925Fຶৰۇ ``````````````````````````````````` গၤ ``````````````````````````````````` ᄂቶ

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Download ຶৰۇǖNBY49560NBY5925F NBY49560NBY5925Fຶৰۇ ``````````````````````````````````` গၤ ``````````````````````````````````` ᄂቶ

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ຶৰۇǖNBY49560NBY5925F NBY49560NBY5925Fຶৰۇ ``````````````````````````````````` গၤ ``````````````````````````````````` ᄂቶ

19-4048; Rev 0; 2/08
NBY49560NBY5925Fຶৰ‫ۇ‬
``````````````````````````````````` ᄂቶ
NBY49560NBY5925Fຶৰ‫)ۇ‬FW lju*ဵጙ్‫ڔ‬ᓤੑࡼዝာ
‫ۇ‬ǈభ࣪NBY4956 EWJ UN0IENJ UN 3;5 UNET ® ࿘߲0દߡ
໭ਜ਼NBY5925F 3;5ࢅຫఎਈ஠ቲຶৰăၒྜྷਜ਼ၒ߲ᄰਭ
Npmfy! EWJਜ਼IENJೌ୻໭ᒇ୻ೌ୻ࡵEWJਜ਼IENJ࢟಄ă
♦ 5വၒ߲࿘߲
BD.ED༑࿟࢟Ꮞး๼໭ᆐຶৰ‫ۇ‬৙࢟ă࢟വ‫ۇ‬ᄋ৙ED.ED
ᓞધ࢟വǈဧ,4/4W৙࢟ࡼNBY4956భጲ৔ᔫᏴ,6W༑࿟
ᒇഗ࢟Ꮞး๼໭ă
♦ ࣖೂࡼEEDభᆐඛവၒྜྷኡᐋྀጙവၒ߲ǈၒྜྷ2ᎁሌ
♦ EWJ.Jਜ਼IENJೌ୻໭
♦ ᑽߒཝ঱༹2191qਜ਼2:31! y! 2311ॊ‫ܦ‬ൈ
♦ ၒྜྷ3۞਺NBY4926ǈభ୓࢟಄ዓ‫ޠ‬ᒗ71ඳ
♦ ඛവၒ߲భࣖೂኡᐋᎾଝᒮ࢟ຳ
♦ ჅᎌUNET! J0P࣒௥ᎌ26lW! ICN! FTEۣઐ
``````````````````````````````` ࢾ৪ቧᇦ
PART
TYPE
MAX3845/4814EEVKIT
EV Kit
♦ ༑࿟࢟Ꮞး๼໭৙࢟
♦ ᅲཝ‫ڔ‬ᓤ݀ளਭ‫ހ‬၂
`````````````````````````````````````````````````````````````````````````````` ऱౖᅄ
HDMI
TMDS DIFFERENTIAL
SIGNALS: D0, D1, D2, CLK
HDMI
HIGH-SPEED
TMDS SWITCH
8
OUTPUT 1
5
8
DVI
MAX3845
2:4 SWITCH
INPUT 1
8
MAX3815
EQUALIZER
8
OUTPUT 2
5
LOW-SPEED
DDC/HPD SWITCH
DVI
DVI
8
5
INPUT 2
OUTPUT 3
MAX4814E
2:4 SWITCH
5
5
DDC SIGNALS:
DATA, CLK, +5V,
GND, HPD
DVI
8
OUTPUT 4
5
EWJဵEjhjubm! Ejtqmbz! Xpsljoh! Hspvqࡼ࿜‫ܪ‬ă
IENJဵIENJ! Mjdfotjoh-! MMDࡼ࿜‫ܪ‬ă
UNETဵTjmjdpo! Jnbhf-! Jod/ࡼᓖ‫ݿ‬࿜‫ܪ‬ă
________________________________________________________________ Maxim Integrated Products
www.BDTIC.com/maxim
1
‫۾‬ᆪဵNbyjnᑵါ፞ᆪᓾ೯ࡼፉᆪǈNbyjn‫࣪ݙ‬डፉᒦࡀᏴࡼ‫ތ‬ፊ૞ᎅࠥ‫ޘ‬ညࡼࡇᇙঌᐊă༿ᓖፀፉᆪᒦభถࡀᏴᆪᔊᔝᒅ૞
डፉࡇᇙǈྙኊཀྵཱྀྀੜࠤᎫࡼᓰཀྵቶǈ༿‫ݬ‬ఠ Nbyjnᄋ৙ࡼ፞ᆪ‫ۈ‬ᓾ೯ă
Ⴣན඾ॅዹອਜ਼ᔢቤ‫ࡼۈ‬ၫ௣ᓾ೯ǈ༿षᆰNbyjnࡼᓍ጑ǖxxx/nbyjn.jd/dpn/doă
ຶৰ‫ۇ‬ǖNBY49560NBY5925F
``````````````````````````````````` গၤ
ຶৰ‫ۇ‬ǖNBY49560NBY5925F
NBY49560NBY5925Fຶৰ‫ۇ‬
``````````````````````````````````````````````````````````````````````````` Ꮔୈ೰‫ܭ‬
DESIGNATION
DESCRIPTION
C1–C8, C13
9
0.01μF ±10% ceramic capacitors
(0402)
C9
1
0.47μF ±10% ceramic capacitor
(0402)
1
1000pF ±10% ceramic capacitor
(0402)
C11, C24
2
22μF ±10% ceramic capacitors
(1206)
C12
1
10μF ±10% ceramic capacitor
(1206)
C10
DESIGNATION
QTY
DESCRIPTION
R31, R37, R38,
R46, R51,
R54–R59, R62
12
4.7k ±5% resistors (0402)
R39, R40, R43,
R48, R63, R64
6
10k ±5% resistors (0402)
R49
1
2.21k ±1% resistor (0402)
R50
1
1k potentiometer
R60
1
0 resistor (0402)
R61
1
OPEN
S1–S8
8
SP3T switches
S9, S10
2
BCD dial switches
SW1–SW4,
SW13, SW14,
SW19, SW20
8
SPDT switches
TP1–TP10
10
Test points
U1
1
MAX3845UCQ+
U2, U3, U5–U9,
U11, U19, U22,
U28, U29
12
MAX3208EAUB+
C14–C23,
C25–C35
21
0.1μF ±10% ceramic capacitors
(0402)
D3–D6
4
LEDs, dual color
D7–D10
4
Switching diodes
D11
1
LED red
J1, J3
2
HDMI connectors
J2, J4, J5, J6
4
DVI connectors
J9
1
Power jack, 2.1mm
JU1, JU2
2
1 x 2 pin headers (0.1in centers)
JU3
1
1 x 3 pin header (0.1in center)
U4
1
74ACT32P
1
3.3μH inductor
Coilcraft MSS5131-332MX
U10
1
MAX1556ETB+
U12
1
MAX3815CCM+
L2
1
Ferrite bead
Murata BLM18EG601
U15–U18
4
Dual BJT transistors
Zetex ZXTD6717E6
Q1
1
PNP transistor
Zetex FMMT591A
U20
1
MAX4814EECB+
U24
1
MAX6346XR46+T
R1–R16, R34
17
200 ±5% resistors (0402)
None
4
Bumpers
None
3
Shunts
None
1
Wall-plug transformer, 120V AC to
5V DC
None
1
PCB: MAX3845 Board, Rev D
L1
2
QTY
R17–R20
4
47.5k ±1% resistors (0402)
R21–R24, R47
5
100 ±5% resistors (0402)
R29, R30, R32,
R33, R35, R36,
R44, R45
8
121 ±1% resistors (0402)
_______________________________________________________________________________________
www.BDTIC.com/maxim
NBY49560NBY5925Fຶৰ‫ۇ‬
ᏴຶৰNBY4956ਜ਼NBY5925Fဟǈ༿‫ږ‬ᑍጲሆႁී๼ᒙຶ
ৰ‫ۇ‬ǖ
2* ཀྵཱྀᄢሣKV2ਜ਼KV3๼ᒙᆐဧ፿༑ါ࢟Ꮞă୓ᄢሣKV4
࢏‫ࡼݝ‬ೝৈ፛୭࣢വǈ࠭ऎಽ፿CDEఎਈT:ਜ਼T21ᒇ୻
఼ᒜNBY5925Fă
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MFEᒎာࡾ።ক࢛ೡăྙਫNBY4926ጯ࿟࢟)ఎਈTX31
ᒙ᎖POᆡᒙ*ǈဟᒩࣀပMFEᒎာࡾ)E22*‫࢛ۻ‬ೡǈ༦
ᆐ੺ྻă
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ሶ࣡୻࢟ᔜࡼ༽ౚሆጐถ୓ၒ߲‫ڼ‬७୐ೂᏴ‫߂ܪ‬IENJ0
EWJࡼቧ੓पᆍă
5* ୓EWJ0IENJᏎ߲ਜ਼ᇢ၃࣡ೌ୻ࡵຶৰ‫ࡼۇ‬ၒྜྷਜ਼ၒ
߲ăࡩࡒ࢟࿸۸ೌ୻ࡵၒ߲ဟǈMFEᒎာࡾ࢛ೡǈ༦
ᆐൊྻǈᑚဵᎅ᎖ᏴIPUQMVHࠀଶ‫ࡵހ‬,6Wቧ੓ă
ᓖǖຶৰ‫ࡼۇ‬EWJೌ୻໭Ꮴ኏ᄰਭ࡝വ૞ၷവEWJ࢟಄
ೌ୻EWJ.E )ၫᔊ*ਜ਼EWJ.J )ၫᔊᎧෝผ*ೌ୻໭ǈࡣᒑ
ᎌၫᔊ࡝വ၁ຫถ৫ᄰਭຶৰ‫ۇ‬ă
6* ྙਫ‫ݧ‬፿୷‫ࡼޠ‬EWJ࢟಄ೌ୻ቧ੓Ꮞǈ༿୓໚ೌ୻ࡵ
JOQVU! 3ăকၒྜྷᎌጙຢNBY4926၁ຫ௿ੰ໭ǈถ৫‫ݗ‬
‫࢟ޠޡ‬಄ࡼ঱ຫႼ੒ă
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ၒྜྷ2ࡼEEDቧ੓ǈఎਈT21ኡᐋၒྜྷ3ࡼEEDቧ੓ă
ᓖǖJOQVU 2ࡼEEDቧ੓ᎁሌǈྙਫJOQVU 2ਜ਼JOQVU 3
‫ࡵ୻ೌۻ‬ᄴጙၒ߲ǈ୓ࣥఎJOQVU 3ࡼEEDೌ୻ă
9* ಽ፿ၒྜྷኡᐋఎਈ)T3ĂT5ĂT6ਜ਼T8*ኡᐋገཇ߲ሚᏴ࢒
2വᒗ࢒5വၒ߲ࡼၒྜྷቧ੓ă
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ྙਫᇧᆃ၄ࣅ఼ᒜNBY4926၁ຫ௿ੰ໭ǈ༿୓ఎਈTX2:
ᒙ᎖NBOVBMᆡᒙăྙਫኊገᐐࡍ௿ੰ೟)‫࢟ޠ‬಄*ǈ༿ዘ
ၿဟᑣऱሶኟᓞS61Ǘྙኊିቃ௿ੰ೟)࣢࢟಄*ǈ༿‫ږ‬ภ
ဟᑣऱሶኟᓞS61ăᓖፀǈᏴ၄ࣅࢯஂ௿ੰဟǈჅᎌྯവ
UNETၫ௣ᄰࡸ࣒‫ۻ‬ᒙᆐሤᄴࡼ௿ੰ೟ă
````````````````````````````````` FTEۣઐ
NBY4956ࡼჅᎌ፛୭࿟௥ᎌ3lWࡼFTEۣઐăྙਫኊገৎ
঱ࡼFTEۣઐǈభጲኡᐋNBY4319FᆐEWJਜ਼IENJ୻ా
ᄋ৙26lWࡼFTEۣઐăক໭ୈࡼ࿸ଐถ৫ᆐ‫ތ‬ॊሣവᄋ
৙ۣઐǈᄴဟથถ৫ۣߒࢅ࢟ྏǈဧ໚࣪ቧ੓ࠅၒࡼ፬
ሰᔢቃă
ຶৰ‫۞ۇ‬౪23ຢNBY4319FǈభۣઐჅᎌUNET! J0Pೌ୻ă
ྙኊዹອǈ༿ᄰਭᆀᐶxxx/nbyjn.jd/dpn/do0tbnqmftǈ
૞݄ࡌ࢟જ)21* 7322.62::ೊᇹNbyjnዹອᒦቦă
7* ྙਫቧ੓Ꮞೌ୻ࡵJOQVU 3ǈ༿ཀྵۣ୓TX31ᒙ᎖POᆡ
ᒙǈ୓TX2:ᒙ᎖BVUPᆡᒙǈᆐNBY4926࿟࢟ă
_______________________________________________________________________________________
www.BDTIC.com/maxim
3
ຶৰ‫ۇ‬ǖNBY49560NBY5925F
``````````````````````````````` ౐Ⴅྜྷඡ
ຶৰ‫ۇ‬ǖNBY49560NBY5925F
NBY49560NBY5925Fຶৰ‫ۇ‬
‫ܭ‬2/! ࢯᑳਜ਼఼ᒜႁී)༿၅ሌ‫ݬ‬ఠ౐Ⴅྜྷඡ‫ݝ‬ॊ*
4
COMPONENT
NAME
FUNCTION
JU3
MODE
Short the bottom two pins of JU3 to control the MAX4814E using the rotary switches S9 and
S10. Short the top two pins to control the MAX4814E through I2C using TP8 (SDA) and TP9
(SCL).
R50
EQ ADJ
S1, S3, S6, S8
PREEMPHASIS
These switches are used to set the level of preemphasis on the MAX3845’s output drivers
(0dB, 3dB, or 6dB).
S2, S4, S5, S7
INPUT SELECT
These switches are used to select which input signal appears for each output. The middle
position powers down the output.
S9, S10
DDC
SWITCHING
These rotary switches are used to connect the DDC signals (SDA, SCL, HOTPLUG, and
+5V) from one input to one output.
SW1–SW4
HOTPLUG
DETECTION
These switches allow the HOTPLUG signals from the DVI sinks to power up and power
down the MAX3845 outputs. To force operation of an output regardless of the HOTPLUG
signal, slide the switch down.
SW13
OUTPUT LEVEL
This switch sets all the MAX3845’s outputs to increased current drive (HIGH) or normal
current drive (LOW). The increased current drive setting allows for 200 back termination
resistors to be used (installed as default on the board).
SW14
POWER DOWN
This switch powers down input 1 when slid down. Note that any output selected to that
input would be powered down as well. The PWRDWN_2 pin is controlled by the loss-ofclock circuit on the MAX3815. If the MAX3815 detects a signal at its RXC_IN input, it
powers up input 2 of the MAX3845. If no clock signal is detected, it powers down input 2.
SW19
EQ MODE
Slide the switch up to manually control the level of equalization of the MAX3815. Slide it
down to have the MAX3815 automatically control the level of equalization.
SW20
MAX3815
POWER DOWN
TP2
TEMP SENSE
TP8
SDA
TP9
SCL
When manual control of the equalizer has been selected using SW19, the level of
equalization on the MAX3815 is controlled by R50.
This switch powers down the MAX3815 when slid down.
When the MAX3845 is powered up, the die junction temperature can be estimated by
measuring the voltage on TP2 relative to GND. For more information, refer to the MAX3845
data sheet.
Connect an I2C source to TP8 (SDA) and TP9 (SCL) to control the MAX4814E.
_______________________________________________________________________________________
www.BDTIC.com/maxim
_______________________________________________________________________________________
www.BDTIC.com/maxim
16
24
29
28
15
23
30
8
14
22
26
7
13
21
27
6
12
20
25
5
11
19
4
3
2
10
18
1
9
17
J2
INPUT2
U24
VCC
RESET
GND
MAX6346
3
2
1
R21
100Ω
4
5
3
C35
0.1μF
7
6
8
9
2
7
6
10
MAX3208EAUB
U29
1
4
5
8
9
2
C34
0.1μF
10
3
D1
D2
PGND
LX
INP
3
6
7
8
9
10
L1
3.3μH
C12
10μF
JU1
C11
22μF
MANUAL
EQ SET
VCC2
VCC2
R49
2.21kΩ
R50
1kΩ
VCC1
CEC
MANUAL
AUTO
3
SW19
EQ CONTROL
1
C17 VCC1
0.1μF
C16 VCC1
0.1μF
C15 VCC1
0.1μF
13
CLKCEC
2
12
11
10
9
8
7
6
5
4
3
2
1
VCC1
SQUELCH
1
VCC1
4
VCC
5
VCC
6
RX1_IN7
RX1_IN+
MAX3815
U12
R62
4.7kΩ
VCC1
1
R48
10kΩ
CLOCK LOSS
SQUELCH
R31
4.7kΩ
TP1
VCC1
U22
C32
0.1μF
1
36
35
34
33
32
TP3 TP2
3
2
R34
200Ω
D11
LED
Q1
2
SW20
R22
100Ω
27
RX2_OUT26
RX2_OUT+
25
GND
24
2
7
6
8
9
10
7
6
8
9
10
VCC2
VCC2
3
1
R23
100Ω
R24
100Ω
R47
100Ω
VCC1
PWRDWN EQ
POWER-UP
POWER-DOWN
VCC1
R61
OPEN
VCC1 R60
0Ω
TEMP SENSE
GND
SW14
31
RX1_OUT30
RX1_OUT+
29
GND
28
GND
VCC1
2
3
GND
RX0_OUTRX0_OUT+
GND
GND
VCC1
1
C33
0.1μF
MAX3208EAUB
13 14 15 16 17 18 19 20 21 22 23
VCC1
U19
MAX3208EAUB
PWRDWN 1
POWER-DOWN
POWER-UP
4
5
3
2
1
4
5
3
2
48 47 46 45 44 43 42 41 40 39 38 37
HOTPLG
15V
PGND
DATA C
CLK C
RESERVED
1
VCC
2
RX0_IN3
RX0_IN+
19
18
17
16
15
14
8
VCC
9
VCC
10
RX2_IN11
RX2_IN+
12
VCC
C14 VCC1
0.1μF
HOTPLUG_IN1
+5V_IN1
GND_IN1
SDA_IN1
SCL_IN1
GND
CLK+
D0-
GND
D0+
D1-
GND
D1+
D2-
GND
D2+
J1
HDMI
INPUT1
+3.3V GND
TP6 TP7
JU2
VCC1
VCC2
C24
22μF
L2
BEAD0603
CONNECTOR MOUNTED ON BOTTOM OF BOARD
5V DC TO 3.3V DC
SHDN
OUT
SS
GND
IN
MAX1556
U10
1
HOTPLUG_IN2
+5V_IN2
GND_IN2
SDA_IN2
U28
5
4
3
2
1
MAX3208EAUB
R43
10kΩ
C10
1000pF
C9
0.47μF
SCL_IN2
5V_POWER
GND
2
VCC1
VCC1
VCC1
C13
0.01μF
INPUT SELECT 4
S7
PREEMPHASIS
SELECT 4
S8
1
ONE
2
TWO
3
C
4
THREE
1
ONE
2
TWO
3
C
4
THREE
U8
26
27
29
6
5
HOTPLUG4
VCC1
28
MAX3208EAUB
23
IN2_C+
24
IN2_CVCC1 25 V
CC2
VCC2
20
IN2_B+
21
IN2_B-
C8 VCC1
0.01μF
22
VCC2
17
IN2_A+
18
IN2_A-
VCC2
14
TEMP
15
PWRDWN_2
C7 VCC1
0.01μF
19
INPUT 1
OFF
INPUT 2
VCC1
11
PWRDWN_1
12
V
13 CC3
LOSMUTE_EN
C5 VCC1
0.01μF
16
6dB
3dB
0dB
VCC1
8
IN1_D+
9
IN1_D-
7
C4 VCC1
0.01μF
10
C3 VCC1
0.01μF
VCC1
VCC1
1
10
D2-
R1 2
200Ω
9
100 99 98 97 96 95 94 93
HOTPLUG1
5
IN1_C+
6
IN1_C-
4
U11
MAX3208EAUB
1
V
2 CC1
IN1_B+
3
IN1_B-
1
ONE
2
TWO
3
C
4
THREE
C2 VCC1
0.01μF
C6 VCC1
0.01μF
6dB
3dB
0dB
PREEMPHASIS
SELECT 1
S1
VCC1
VCC2
GND
IN1_AIN1_A+
IN2_D+
TO WALL WART
INPUT SELECT 1
S2
1
ONE
2
TWO
3
C
4
THREE
VCC1
IN2_D-
VCC1
IN_SEL1
INPUT 1
OFF
INPUT 2
D2+
1
GND
2
PREEMPH1
VCC2
R16
200Ω
30
D1+
7
4
31
GND
D13
8
VCC2
32
8
3
33
2
R59
4.7kΩ
9
C31
0.1μF
34
4
C20
0.1μF
D0-
J3
HDMI
CLK+
35
GND
R2 5
200Ω
6
89 88 87
GND
7
R46
4.7kΩ
VCC2
92 91 90
HOTPLUG4
3
HOTPLUG1
IN_SEL4
5
D0+
7
OUT1_AOUT4_D-
4
GND1
PREEMPH4
6
OUT1_A+
GND2
8
GND1
OUT4_D+
9
OUT1_B+
U1
J6
18
17
19
11
10
9
6
5
40
3
39
2
38
1
10
1
10
1
37
RESERVED
86 85 84
MAX3845
R15
200Ω
36
GND2
CLKGND2
10
OUT1_BOUT4_C-
CEC
OUT1_C+
11
GND1
13
CLK-C
DATA-C
9
83
20
12
4
R14
200Ω
42
82 81
R3 2
200Ω
41
OUT1_COUT4_B-
PGND
7
4
44
21
13
5
VCC2
43
OUT4_A-
14
GND1
16
HOTPLG
3
8
80 79
22
14
6
8
3
45
4
C25
0.1μF
7
R51
4.7kΩ
VCC2
+5V
GND1
15
OUT4_B+
17
OUT1_D+
GND2
18
OUT1_DOUT4_A+
19
GND2
GND
TP5
HOTPLUG2
2
23
15
7
R58
4.7kΩ
9
C30
0.1μF
46
HOTPLUG3
+5V
TP4
GND1
47
GND2
1
VCC
RXC_IN+
RXC_INVCC
EQCONTROL
CLKLOS
PWRDWN
GND
RXC_OUTRXC_OUT+
GND
78 77 76
HOTPLUG2
R4 5
200Ω
6
49
24
16
8
R13
200Ω
10
1
GND1
PREEMPH2
IN_SEL2
GND1
OUT2_D-
OUT2_D+
GND1
OUT2_C-
OUT2_C+
GND1
OUT2_B-
OUT2_B+
25
27
50
U9
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
26
28
30 29
SCL_OUT4
+5V_OUT4
SDA_OUT4
GND_OUT4
HOTPLUG_OUT4
MAX3208EAUB
GND2
OUT3_C-
OUT3_C+
GND2
OUT3_B-
OUT3_B+
GND2
OUT3_A-
OUT3_A+
GND2
IN_SEL3
PREEMPH3
OUT_LEVEL
HOTPLUG3
48
U5
HOTPLUG1
MAX3208EAUB
HOTPLUG_OUT1
+5V_OUT1
GND_OUT1
SDA_OUT1
SCL_OUT1
CEC
OUT2_A+
OUT3_D-
POS
N.C.
N.C.
N.C.
N.C.
VCC
VCC
GND
VCC
OUTON
OUTLEVEL
VCC
GND
GND
OUT2_AOUT3_D+
12
OUT4_C+
GND1
GND2
U2
C2
B1
C1
U15
1
U6
C29
0.1μF
6
7
8
9
10
VCC2
MAX3208EAUB
HOTPLUG4
R12
200Ω
5
4
3
R11
200Ω
2
1
6
R10
200Ω
5
8
9
10
7
U7
C28
0.1μF
MAX3208EAUB
6
7
8
9
4
3
R9
200Ω
2
1
R8
200Ω
5
4
3
C26
0.1μF
MAX3208EAUB
10
6
8
9
10
R6
200Ω
5
R7
200Ω
2
4
R30
121Ω
E2
7
U3
C26
0.1μF
6
B2 5
E1
CA1
CA2
3
C2
C1
2 B1
1
AN1
AN2
1
3
HOTPLUG3
HOTPLUG2
D3
U18
R45
121Ω
E2
4
6
E1
B2 5
2
4
3
VCC2
CA1
CA2
D6
AN1
AN2
VCC2 R44
121Ω
1
3
3
C2
1
2
3
4
5
6
7
8
27
28
2
4
9
10
11
12
13
14
15
16
30
29
9
10
11
12
13
14
15
16
30
29
CA1
CA2
26
25
25
26
D4
U17
4
R36
121Ω
E2
6
E1
B2 5
2
4
CA1
CA2
D5
AN1
AN2
VCC2 R35
121Ω
17
18
19
20
21
22
23
24
17
18
19
20
21
22
23
24
AN1
AN2
VCC2 R32
121Ω
OUTPUT 3 CONNECTION STATUS
J5
1
2
3
4
5
6
7
8
27
28
R33
121Ω
E2
4
6
E1
B2 5
CONDVI
U16
OUTPUT 2 CONNECTION STATUS
J4
C1
2 B1
1
SCL_OUT3
+5V_OUT3
SDA_OUT3
GND_OUT3
HOTPLUG_OUT3
SCL_OUT2
+5V_OUT2
SDA_OUT2
GND_OUT2
C2
C1
2 B1
1
HOTPLUG_OUT2
VCC2
OUTPUT 4 CONNECTION STATUS
R57 VCC2
4.7kΩ
R56 VCC2
4.7kΩ
R55 VCC2
4.7kΩ
R54 VCC2
4.7kΩ
2
4
VCC2 R29
121Ω
OUTPUT 1 CONNECTION STATUS
MAX3208EAUB
3
2
1
4
3
R5
200Ω
2
1
VCC2
1
3
1
3
6dB
3dB
0dB
SW13
INPUT 1
OFF
INPUT 2
2
6dB
3dB
0dB
INPUT 1
OFF
INPUT 2
PREEMPHASIS
SELECT 2
S3
1
ONE
2
TWO
3
C
4
THREE
INPUT SELECT 2
S4
1
ONE
2
TWO
3
C
4
THREE
VCC1
INPUT SELECT 3
S5
1
ONE
2
TWO
3
C
4
THREE
S6
1
ONE
2
TWO
3
C
4
THREE
PREEMPHASIS
SELECT 3
OUTPUT LEVEL
HIGH
NORMAL
VCC1
VCC1
3
1
VCC1
VCC1
ຶৰ‫ۇ‬ǖNBY49560NBY5925F
J9
NBY49560NBY5925Fຶৰ‫ۇ‬
ᅄ2/! NBY49560NBY5925Fຶৰ‫ۇ‬Ꮗಯᅄ)203*
5
ຶৰ‫ۇ‬ǖNBY49560NBY5925F
NBY49560NBY5925Fຶৰ‫ۇ‬
1
HOTPLUG_OUT1
2
R19
47.5kΩ
3
HOTPLUG1
4
HOTPLUG_OUT2
5
R17
47.5kΩ
6
HOTPLUG2
2
7
2
SW1
1
SW2
VCC2
3
1
1A
VCC
1B
4B
1Y
4A
2A
4Y
2B
3B
2Y
3A
GND
3Y
2
3
4
VCC2
5
14
13
HOTPLUG_OUT4
12
11
HOTPLUG4
R20
47.5kΩ
10
9
HOTPLUG_OUT3
8
R18
47.5kΩ
HOTPLUG3
2
2
SW3
1
3
SW4
VCC2
3
1
VCC2
3
DDC SWITCH 1
R39
10kΩ
S10
1
C1
0.01μF
VCC2
DDC SWITCH 2
R63
10kΩ
VCC2
U4
74ACT32
HOTPLUG BUFFER
S9
1
ONE
ONE
2
TWO
TWO
3
FOUR
VCC2
EIGHT
FOUR
4
5
CMN
VCC2
EIGHT
A
CMN
D7
C
+5V_OUT1
R64
10kΩ
SCL_OUT1
HOTPLUG_OUT1
R40
10kΩ
VCC2
C21
0.1μF
SDA_OUT1
GND_OUT1
VCC2
VCC2
3
+5V_IN1
4
SCL_IN1
5
HOTPLUG_IN1
6
SDA_IN1
7
GND_IN1
C18 VCC2
0.1μF
8
9
VDD
EFN
SW0[4]
SW0[3]
SW0[2]
SW0[0]
SW0[1]
GND
55 52 53 52 51 50 49
GND
57 56
DA0/DO0
DA2/DO2
VDD
GND
DB0/DO3
2
DB2
DB1
1
59 58
DA1/DO1
VCC2
64 63 62 61 60
GND
I.C.
N.C.
A[0]
SW1[0]
A[1]
SW1[1]
A[2]
SW1[2]
A[3]
SW1[3]
A[4]
SW1[4]
VDD
U20
VDD
VDD
VDD
MAX4814E
SW2[0]
17 18 19 20 21
VCC2
VCC2
MODE
I2C
DIRECT
3
2
1
22
C19
0.1μF
23
24
25
VDD
EFN
GND
SW3[0]
I.C.
SW3[1]
I.C.
SW3[2]
SW2[4]
SW3[3]
B[4]
SW3[4]
16
SW2[3]
GND
15
B[3]
GND
GND_IN2
SW2[2]
AD2
14
B[2]
AD1
SDA_IN2
SW2[1]
AD0
13
B[1]
SCL
HOTPLUG_IN2
B[0]
SDA
12
MODE
11
VDD
10
+5V_IN2
SCL_IN2
C
TP8
46
+5V_OUT2
45
SCL_OUT2
44
HOTPLUG_OUT2
43
SDA_OUT2
42
41
40
VCC2 C22
0.1μF
39
VCC2
D9
C
GND_OUT2
A
+5V_OUT3
38
SCL_OUT3
37
HOTPLUG_OUT3
36
SDA_OUT3
35
GND_OUT3
34
33
VCC2
VCC2
C23
0.1μF
+5V_OUT4
SCL
R37 VCC2 R38
4.7kΩ
4.7kΩ
D8
A
TP9
SDA
C
47
26 27 28 29 30 31 32
D10
JU3
GND
A
48
SCL_OUT4
HOTPLUG_OUT4
SDA_OUT4
GND_OUT4
GND
TP10
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6
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ຶৰ‫ۇ‬ǖNBY49560NBY5925F
NBY49560NBY5925Fຶৰ‫ۇ‬
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8
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Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ______________________9
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