MAXIM MAX3983EVKIT

19-2968; Rev 0, 8/03
MAX3983 Evaluation Kit
_________________________ Features
The MAX3983 evaluation kit (EV Kit) is an assembled
demonstration board that provides electrical evaluation of
the MAX3983 Quad Copper Cable Signal Conditioner.
The EV Kit also includes a calibration strip for accurate
measurements.
♦
Fully Assembled and Tested
♦
Easy Selection of Operating Modes
♦
Equipped with a 4X InfiniBand Cable Connector
____________________ Component List
DESIGNATION QTY
DESCRIPTION
C1-C32, C35C44
42
0.01µF ±5% ceramic
capacitors (0402)
C33
1
33µF tantalum capacitor
4
0.1µF ±5% ceramic
capacitors (0402)
C34, C45, C46,
C49
C47, C48, C50,
C51
J1-J18
4
Not Installed
18
SMA connectors, edge
mount
JP1, JP2, JP8,
JP9, JP12
JP3
5
2-pin headers, 0.1in centers
1
3-pin header, 0.1in centers
JP5
1
3-pin + 1-pin header, 0.1in
centers
JP10, JP11
2
Not Installed
L1
1
4.7µH Inductor Coilcraft
DS1608C-472
P1
1
R1-R8
8
R10 - R18
9
Not Installed
TP1-TP11
11
Test points
Digi-Key 5000K-ND
U1
1
U2
1
______________ Ordering Information
PART
MAX3983EVKIT
TEMP. RANGE
0°C to +85°C
IC PACKAGE
68 QFN
______________Component Suppliers
SUPPLIER
PHONE
FAX
AVX
843-448-9411
843-448-1943
Coilcraft
847-639-6400
847-639-1469
Digi-Key
218-681-6674
218-681-3380
Murata
770-436-1300
770-436-3030
Note: Please indicate that you are using the MAX3983
when ordering from these suppliers.
________________________ Quick Start
1)
Connect a +3.3V supply to the 3.3V terminal and
ground to the GND terminal.
4x IB Connector FCI 58369111120 or 58369-112110
2)
Disable system loopback by
LOOPBACK shunt at jumper JP9.
4.7kΩ ±5% resistors (0402)
3)
Remove shunts at jumpers JP3 and JP5 to enable
TX and RX.
4)
Install shunt at jumper JP2 to VCC to provide +3.3V to
the SD pullup resistors.
MAX3983UGK 68-QFN*
5)
OR Gate Fairchild
NC7S32P5X SC70
Apply 2.5Gbps to 3.2Gbps data to TX_IN[1:4]
(J9 - J16).
6)
None
MAX3983 evaluation circuit
board, rev A
Apply 2.5Gbps to 3.2Gbps data to RX_IN[1:4]
through a 1m to 5m InfiniBand 4X cable assembly.
7)
None
MAX3983 data sheet
Connect data outputs RX_OUT[1:4] to a 50 ohmterminated oscilloscope to monitor RX_IN[1:4] data,
and/or connect TX_OUT[1:4] to a 50 ohm-terminated
oscilloscope through a 1m to 15m InfiniBand 4X
cable assembly to monitor TX_IN[1:4] data.
8)
Adjust TX pre-emphasis with jumpers JP1 and JP12,
and adjust RX pre-emphasis with JP8 (see Jumper
Descriptions).
*Note: U1 has an exposed pad which requires it to be
solder attached to the circuit board to insure proper
functionality of the part.
installing
_________________________________________________________________Maxim Integrated Products
the
1
For free samples & the latest literature: http://www.maxim-ic.com, or phone 1-800-998-8800
For small orders, phone 1-800-835-8769
Evaluates: MAX3983
________________ General Description
MAX3983 Evaluation Kit
Evaluates: MAX3983
__________________________________________________________________ _Jumper
NAME
TYPE
TX_PE1
(JP1)
2-pin header
TX_PE0
(JP12)
2-pin header
RX_PE (JP8)
2-pin header
LOOPBACK
(JP9)
2-pin header
PULLUP
(JP2)
2-pin header
SHUNT
POSITION
OPEN
Enables most-significant bit of TX pre-emphasis control
SHUNT (GND)
Disables most-significant bit of TX pre-emphasis control
OPEN
Enables least-significant bit of TX pre-emphasis control
SHUNT (GND)
Disables least-significant bit of TX pre-emphasis control
Sets RX pre-emphasis to 6dB
SHUNT (GND)
Sets RX pre-emphasis to 3dB
OPEN
SHUNT (GND)
OPEN
SHUNT (VCC)
3-pin header
TX_AUTO_EN
TX_DISABLE
OPEN
RX_AUTO_EN
RX_ENABLE
(JP5)
3-pin +
1-pin header
DESCRIPTION
OPEN
OPEN
TX_ENABLE
(JP3)
Descriptions
RX_DISABLE
Enables loopback from TX_IN[1:4] to RX_OUT[1:4]
Disables loopback
Allows external voltage (3.0V to 5.5V) applied at VPULLUP pin as SD
resistor pullup voltage
Sets Vcc as the SD resistor pullup voltage
Enables the TX section of the MAX3983
Enables auto-detection in the TX section, when EV board is set up
in the Auto-Detect configuration. See Auto-Detect Configuration in
Detailed Description.
Disables the TX section of the MAX3983
Enables the RX section of the MAX3983
Enables auto-detection in the RX section when EV board is set up
in the Auto-Detect configuration. See Auto-Detect Configuration in
Detailed Description.
Disables the RX section of the MAX3983
Sets RX_ENABLE high whenever LOOPBACK or all of RX_SD[1:4]
are high when EV board is set up in the Auto-Detect configuration.
See Auto-Detect Configuration in Detailed Description.
_______________Detailed
Description
Auto-Detect Configuration
Embedded Stripline
The MAX3983 Evaluation Kit is shipped with each
signal detect (SD) separated. In order for the MAX3983
to automatically detect an incoming signal and enable
the corresponding output, these SD outputs need to be
connected together.
The MAX3983 Evaluation Kit has approximately 2.5
inches of 4mil-wide FR4 stripline on the cable side
inputs and outputs. This provides 2dB of loss at 3GHz,
which slows the output transition times of the MAX3983
to approximately 60ps.
To configure the board for auto-detection on the RX
side, solder four 0Ω 0402 resistors in R14 - R17 and
remove R6, R7, and R8. Jumper JP5 then enables RX
auto-detect (see Jumper Descriptions).
If slower transition times are desired, the MAX3983
Evaluation Kit provides a connection for 0402
capacitors across the TX outputs. To achieve about
100ps (20%-80%) edges, solder 1.5pF capacitors for
C47, C48, C50, and C51.
To configure the board for auto-detection on the TX
side, solder four 0Ω 0402 resistors in R10 - R13 and
remove R2, R3, and R4. Jumper JP3 then enables TX
auto-detect (see Jumper Descriptions).
2 _________________________________________________________________________________________
GND
3.3V
C49
0.1µF
L1
4.7µH
TX_IN4+
TX_IN4-
TX_IN3+
TX_IN3-
TX_IN2+
TX_IN2-
TX_IN1+
TX_IN1-
C33
33µF
J18
J17
VCC
C45
0.1µF
J16
J15
J14
J13
J12
J11
J10
J9
JP11
JP10
C36
0.01µF
C35
0.01µF
C27
0.01µF
C25
0.01µF
C44
0.01µF
C43
0.01µF
C42
0.01µF
C41
0.01µF
C40
0.01µF
C39
0.01µF
C38
0.01µF
C37
0.01µF
C29
0.01µF
C26
0.01µF
C30
0.01µF
C28
0.01µF
C31
0.01µF
C32
0.01µF
VCCRX
VCCTX
TP11
GND
TP9
VCCRX
TP10
VCCTX
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
TX_SD4
TX_SD3
VCC1
TX_IN4+
TX_IN4-
GND
TX_IN3+
TX_IN3-
GND
TX_IN2+
TX_IN2-
GND
TX_IN1+
TX_IN1-
VCC1
TX_SD2
TX_SD1
R18
OPEN
66
VCCTX
VCCRX
0.01µF
0.01µF
0.01µF
65
VCCRX
C19
C18
C17
63
LOOPBACK
EP*
TX_ENABLE
VCCTX
VCCTX
JP9
J3
J2
J1
62
LOOPBACK
JP8
18
VCCTX
VCCRX
0.01µF
C20
J4
U1
MAX3983
0.01µF
C21
J5
RX_OUT3-
VCCTX
C51
C50
C48
C47
0.01µF
C24
VCCRX
NOT
INSTALLED
NOT
INSTALLED
NOT
INSTALLED
NOT
INSTALLED
VCCTX
J8
RX_OUT4+
RX_ENABLE
0.01µF
C23
J7
RX_OUT4-
RX_SD1
JP12
TX_PE0
TX_PE1
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
JP1
RX_SD4
RX_SD3
VCC3
RX_IN4-
RX_IN4+
GND
RX_IN3-
RX_IN3+
GND
RX_IN2-
RX_IN2+
GND
RX_IN1-
RX_IN1+
VCC3
RX_SD2
*EP = EXPOSED PAD, SOLDERED TO GROUND
VCCTX
VCCRX
0.01µF
C22
J6
RX_OUT3+
55
RX_OUT2+
59
RX_PE
68
LOOPBACK
TX_ENABLE
67
19
RX_PE
N.C.
20
VCC4
VCC2
64
RX_OUT1TX_OUT1+
21
RX_OUT1+
TX_OUT122
VCC4
VCC2
23
RX_OUT2-
61
25
TX_OUT2-
54
RX_OUT2-
26
TX_OUT2+
24
RX_OUT2+
60
VCC4
VCC2
58
RX_OUT3TX_OUT3+
27
RX_OUT3+
57
29
TX_OUT328
VCC4
VCC2
56
30
RX_OUT4TX_OUT4+
31
RX_OUT4+
TX_OUT4-
52
RX_ENABLE
53
VCC4
VCC2
32
POR
TX_PE0
33
TX_PE1
34
RX_OUT1+
CPOR
VCCRX
VCCRX
C34
0.1µF
C15
0.01µF
C16
0.01µF
C13
0.01µF
C14
0.01µF
C11
0.01µF
C12
0.01µF
C9
0.01µF
C10
0.01µF
C7
0.01µF
C8
0.01µF
C5
0.01µF
C6
0.01µF
C3
0.01µF
C4
0.01µF
C1
0.01µF
C2
0.01µF
TX_OUT1
TX_OUT2
TX_OUT3
TX_OUT4
RX_IN4
RX_IN3
RX_IN2
RX_IN1
R16
OPEN
R17
OPEN
LOOPBACK
R7
4.7kΩ
R8
4.7kΩ
R15
OPEN
R6
4.7kΩ
2
1
R12
OPEN
R3
4.7kΩ
S16
S15
S14
S13
S12
S11
S10
S9
S8
S7
S6
S5
S4
S3
S2
S1
G9
G8
G7
G6
G5
G4
G3
G2
G1
RX_ENABLE
JP3
C46
0.1µF
TX_ENABLE
TX_DISABLE
TP4 TX_SD4
TP3 TX_SD3
TP2 TX_SD2
TP1 TX_SD1
TP8 RX_SD4
TP7 RX_SD3
TP6 RX_SD2
TP5 RX_SD1
TX_AUTO_EN
R10
OPEN
R1
4.7kΩ
RX_DISABLE
R11
OPEN
R2
4.7kΩ
P1
FCI 58369-111120 OR
FCI 58369-112110
JP5
RX_AUTO_EN
4
R13
OPEN
R4
4.7kΩ
U2
NC7S32P5X
R14
OPEN
R5
4.7kΩ
VPULLUP
JP2
VCC
Evaluates: MAX3983
RX_OUT1-
MAX3983 Evaluation Kit
Figure 1. MAX3983 EV Kit Schematic
_________________________________________________________________________________________
3
Evaluates: MAX3983
MAX3983 Evaluation Kit
Figure 2. MAX3983 EV Kit Component Placement Guide – Component Side
4 _________________________________________________________________________________________
MAX3983 Evaluation Kit
Evaluates: MAX3983
Figure 3. MAX3983 EV Kit PC Board Layout – Component Side (Signal), Layer 1
_________________________________________________________________________________________
5
Evaluates: MAX3983
MAX3983 Evaluation Kit
Figure 4. MAX3983 EV Kit PC Board Layout – Ground Plane, Layer 2
6 _________________________________________________________________________________________
MAX3983 Evaluation Kit
Evaluates: MAX3983
Figure 5. MAX3983 EV Kit PC Board Layout – Signal, Layer 3
_________________________________________________________________________________________
7
Evaluates: MAX3983
MAX3983 Evaluation Kit
Figure 6. MAX3983 EV Kit PC Board Layout – Ground Plane, Layer 4
8 _________________________________________________________________________________________
MAX3983 Evaluation Kit
Evaluates: MAX3983
Figure 7. MAX3983 EV Kit PC Board Layout – Power Plane, Layer 5
_________________________________________________________________________________________
9
Evaluates: MAX3983
MAX3983 Evaluation Kit
Figure 8. MAX3983 EV Kit PC Board Layout – Bottom (Signal), Layer 6
Maxim makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Maxim assume any
liability arising out of the application or use of any product or circuit and specifically disclaims any and all liability, including without limitation consequential
or incidental damages. “Typical” parameters can and do vary in different applications. All operation parameters, including “typicals” must be validated for
each customer application by customer’s technical experts. Maxim products are not designed, intended or authorized for use as components in systems
intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the
Maxim product could create a situation where personal injury or death may occur.
10 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
 2000 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products