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PDF GX3202 Data sheet ( Hoja de datos )
| Número de pieza | GX3202 | |
| Descripción | 202 x 202 3.5Gb/s Crosspoint Switch | |
| Fabricantes | Semtech | |
| Logotipo |  |
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GX3202
202 x 202 3.5Gb/s Crosspoint Switch with Trace Equalization and Output
De-emphasis
Key Features
• 202 x 202 crosspoint switch architecture supporting
broadcast and multi-cast modes
• Supports all data rates up to 3.5Gb/s
• Low power consumption: 25W typical (all channels
active)
• Sophisticated, dynamic on-chip power management
control
• Independent, programmable input trace equalization
to reduce deterministic jitter (ISI)
• Independent, programmable output de-emphasis for
driving long board traces
• High-speed, video-optimized control for multi-format
applications
• Built-in system test features with on-chip PRBS
generators and analyzers
• 2.5V analog core voltage, 1.8V digital core voltage
• Input and output voltages support either 1.2V, 1.8V or
2.5V CML
• JTAG-controlled boundary scan
• Selectable parallel/serial host interface
• 50mm x 50mm BGA (2377 ball)
• Operating temperature range: 0°C to +85°C
• RoHS compliant
Applications
Large m x n cascaded routers/switch fabrics for:
• Professional broadcast applications
• Enterprise and carrier applications
• High-speed automated test equipment
• 10GbE and InfiniBand networks
Description
The GX3202 is a low-power, high-speed 202 x 202
crosspoint switch, with robust signal conditioning circuits
for driving and receiving high-speed signals through
backplanes.
The device typically consumes 25W of power with all
channels operational, and features sophisticated,
dynamically scalable power management. Unused
portions of the core are automatically turned off without
affecting the operation of the remaining channels.
The signal conditioning features of the GX3202 include
per-input programmable equalization and per-output
programmable de-emphasis. The input equalizer removes
ISI jitter—typically caused by PCB trace losses—by
opening the input data eye in applications where long PCB
traces are used. There are four settings available for the
input equalizer, allowing flexibility in adjusting the
equalization level on a per-input basis.
Output de-emphasis capability provides a boost of the
high-frequency content of the output signal, such that the
data eye remains open after passing through a long
interconnect of PCB traces and connectors. There are four
de-emphasis settings that can be enabled on a per-output
basis.
Two integrated programmable pattern generators, and two
pattern checkers are provided to assist in system test and
configuration.
The pattern generators can each be routed to any output of
the device without impacting the normal operation of any
other channel. Any input can be routed to each of the
pattern checkers.
The chip features eight independent strobe inputs,
UPDATE_EN[7:0], which are used to determine the timing
of the output updates. Any output can be linked to any
strobe.
GX3202 202 x 202 3.5Gb/s Crosspoint
Data Sheet
56077 - 1
October 2012
www.semtech.com
1 of 49
Proprietary & Confidential
1 page  
1. Ball Out
1.1 Ball Assignment
Legend:
Power
Ground
Input
Output
Digital
Control
Reserved
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49
A ANC NC
NC
GND
SDO_
268
SDO_ SDO_
268 244
SDO_
244
SDO_
264
SDO_
264
SDO_
248
SDO_
248
SDO_
228
SDO_
228
GND
SDO_
208
SDO_
208
SDO_
192
SDO_ SDO_
192 176
SDO_
176
SDO_
160
SDO_
160
GND
SDO_
144
SDO_
144
SDO_ SDO_
124 124
SDO_
112
SDO_
112
SDO_
96
SDO_
96
SDO_ SDO_
80 80
GND
SDO_
60
SDO_ SDO_
60 44
SDO_ SDO_
44 28
SDO_
28
SDO_
12
SDO_
12
MON0
MON0
GND
NC
NC
NC
B BNC
NC
GND
GND
GND
SDO_
280
SDO_
280
SDO_
236
SDO_
236
SDO_
240
SDO_
240
SDO_
232
SDO_
232
GND
SDO_
212
SDO_
212
SDO_
188
SDO_ SDO_
188 172
SDO_
172
SDO_
156
SDO_
156
GND
SDO_
140
SDO_
140
SDO_
128
SDO_
128
SDO_
108
SDO_
108
SDO_
92
SDO_ SDO_
92 76
SDO_
76
GND
SDO_
64
SDO_ SDO_
64 48
SDO_
48
SDO_
32
SDO_
32
SDO_
16
SDO_ SDO_
16 0
SDO_ RSV
0 _DNC
GND
GND
NC
NC
C CNC
GND
GND
GND
GND
VCC_ SDO_ SDO_
OUT1 284 284
SDO_
272
SDO_ SDO_
272 204
SDO_
204
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
216 216 196 196 180 180 164 164
GND
SDO_ SDO_
148 148
SDO_ SDO_
132 132
SDO_
116
SDO_ SDO_
116 100
SDO_
100
SDO_ SDO_
84 84
GND
SDO_ SDO_
68 68
SDO_ SDO_
52 52
SDO_
36
SDO_ SDO_
36 20
SDO_ SDO_
20 4
SDO_ RSV
4 _DNC
GND
GND
GND
GND
NC
D DGND
GND
GND
GND
GND
GND
RSV
_DNC
SDO_
260
SDO_
260
SDO_
252
SDO_
252
SDO_
224
SDO_
224
GND
SDO_
200
SDO_ SDO_
200 184
SDO_ SDO_
184 168
SDO_ SDO_
168 152
SDO_
152
GND
SDO_
136
SDO_
136
SDO_ SDO_
120 120
SDO_
104
SDO_
104
SDO_
88
SDO_
88
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
72 72 56 56 40 40 24 24 8
8
GND
GND
GND
GND
GND
GND
GND
E EXT RSV
_PG1 _DNC
GND
GND
GND GND
GND DTHERMA SDO_
3 276
SDO_ SDO_
276 256
SDO_ SDO_ SDO_ GND
256 220 220
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
258 258 210 210 186 186 178 178
GND SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
150 150 138 138 122 122 98
98
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ VCC_
74 74 50 50 26 26
2
2 OUT1
GND
GND GND
GND
GND GND
SDI
_0
E
EXT
F F_PG1
SDI_
3
RSV
_DNC
GND
GND
GND
GND
GND
DTHERMK
3
SDO_
282
SDO_ SDO_ SDO_ SDO_ SDO_
282 274 274 234 234
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
242 242 190 190 198 198 174 174
GND SDO_
146
SDO_ SDO_ SDO_ SDO_
146 126 126 102
SDO_ SDO_ SDO_
102 78
78
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
54 54 34 34
6
6
GND
GND
GND GND GND
GND
VCC
_IN1
SDI_
4
SDI_
0
SDI_
G G7
SDI_
3
SDI_
11
GND GND GND GND GND
GND
VCC_
OUT1
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
SDO_
30
SDO_ SDO_
30 10
SDO_ VCC_
10 OUT1
GND
GND
GND
GND
GND
RSV
_DNC
SDI_ SDI_
84
SDI_
20
SDI_ SDI_
H H7 19
SDI_
11
SDI_
23
VCC
_IN2
GND
GND
GND
GND
GND
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
GND
GND
GND
GND
GND
GND
DTHERMA
0
SDI_
12
SDI_
8
SDI_
24
SDI_
20
SDI_
J J15
SDI_
19
SDI_
43
SDI_
23
SDI_
1
GND
GND
GND
GND
GND
GND VCC_
OUT1
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
GND _IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
GND VCC_ GND
OUT1
GND GND
GND
GND DTHERMK
0
SDI_
16
SDI_
12
SDI_ SDI_ SDI_
28 24 40
SDI_
K K15
SDI_
35
SDI_
43
SDI_
27
SDI_
1
SDI_
5
VCC
_IN2
GND GND
GND GND GND GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV GND
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
GND
GND GND
GND GND
GND
VCC
_IN1
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_
2 16 32 28 44 40
SDI_
L L31
SDI_
35
SDI_
59
SDI_
27
SDI_ SDI_
95
SDI_
13
GND GND GND GND GND GND
GND
VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_ VCC_
OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1 OUT1
GND
GND
GND
GND
GND
GND
GND
RSV
_IO
SDI_ SDI_
2 36
SDI_ SDI_ SDI_ SDI_
32 48 44 60
SDI_ SDI_
M M31 51
SDI_ SDI_ SDI_
59 39
9
SDI_ SDI_
17 13
RSV
_IO
VCC
_IN2
GND GND
GND GND GND
GND GND
GND GND
GND
GND GND
GND
GND GND
GND GND
GND
GND GND GND
GND
GND GND
GND GND
GND
GND GND
GND
GND
VCC
_IN1
RSV
_IO
RSV
_IO
SDI_ SDI_ SDI_ SDI_ SDI_
22 36 52 48 64
SDI_
60
SDI_
N N47
SDI_
51
SDI_
71
SDI_
39
SDI_
37
SDI_
17
SDI_
29
RSV
_IO
GND
GND GND
GND GND
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
GND
GND
GND
GND
RSV
_IO
RSV
_IO
RSV
_IO
SDI_ SDI_
22 56
SDI_
52
GND
SDI_ SDI_
64 76
SDI_ SDI_
P P47 67
SDI_ SDI_ SDI_
71 55 37
SDI_
25
SDI_
29
GND RSV
_IO
GND
GND
GND
GND
GND
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
VCC_
VCC_
GND OUT1 GND OUT1
GND
VCC_
OUT1
GND
VCC_
OUT1
GND
GND
GND
GND
GND
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
SDI_ SDI_
42 56
GND
SDI_
68
GND
SDI_
76
R RGND
SDI_
67
SDI_
75
SDI_
55
SDI_
33
SDI_
25
GND
RSV
_IO
RSV
_IO
RSV
_IO
GND
GND
GND
GND
EXT
_CLK2
VCC
_25_
VCO2
LDO2
GND
VCC_ VCC_
25_A 25_A
GND GND
VCC_ VCC_
25_A 25_A
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
LDO0
VCC
_25_
VCO0
EXT
CLK0
GND
GND
GND
GND
RSV
_IO
RSV RSV RSV
_IO _IO _IO
SDI_
42
GND
SDI_
72
SDI_
68
SDI_
80
GND
SDI_
T T63
GND
SDI_
75
SDI_
87
SDI_
33
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND
GND
EXT
_CLK2
GND
LF2
VCC_ VCC_
GND 25_A 25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
LF0
GND
EXT
CLK0
GND
GND
GND
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
SDI_
62
SDI_ SDI_
72 84
SDI_ SDI_
80 92
SDI_
U U63
SDI_
83
GND
SDI_
87
GND
SDI_
85
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND GND
GND
GND GND
GND GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND GND
GND GND
GND
GND
GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV
_IO
RSV
_IO
GND
SDI_
70
SDI_
62
SDI_
88
SDI_
84
SDI_
96
SDI_
92
SDI_
V V79
SDI_
83
SDI_
91
SDI_
GND 57
SDI_
85
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND GND
GND
GND
VDD
_25
GND
VDD_ VDD_
18 18
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VDD_ VDD_
18 18
GND
VDD_
25
GND
GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV
_IO
GND
RSV
_IO
SDI_
70
SDI_
86
SDI_
88
SDI_
100
SDI_
96
SDI_
108
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_ RSV
W W79 99 91 103 57 73 _IO
RSV
_IO
RSV
_IO
RSV
_IO
GND GND
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND GND GND
RSV
_IO
GND
RSV
_IO
RSV
_IO
SDI_ SDI_ SDI_ SDI_
90 86 104 100
SDI_ SDI_
112 108
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_ RSV
Y Y95 99 107 103 81 73 _IO
RSV
_IO
RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND
GND VCC_ VCC_ GND
25_A 25_A
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
GND
GND
GND
RSV
_IO
RSV
_IO
RSV
_IO
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_
90 110 104 116 112 128
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_ RSV
AA AA95 115 107 119 81 101 _IO
RSV
_IO
RSV
_IO
GND
VCC
_IN2
VCC
_IN2
GND
GND
GND
GND
VCC_ VCC_
25_A 25_A
GND
VCC_ VCC_
GND 25_A 25_A
VCC_
GND GND 25_A GND
VCC_ VCC_
GND 25_A 25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND GND
GND GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV RSV
_IO _IO
RSV SDI_ SDI_ SDI_ SDI_
_IO 118 110 120 116
SDI_ SDI_
124 128
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_ RSV
AB AB111 115 123 119 113 101 _IO
RSV
_IO
GND
RSV
_IO
GND
GND
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND GND
VCC_
25_A
VCC_
25_A
GND
VCC_ VCC_
25_A 25_A
GND GND
VCC_ VCC_
25_A 25_A
GND GND
VCC_ VCC_
25_A 25_A
GND GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
SDI_
118
SDI_
134
SDI_
120
GND SDI_
124
SDI_
144
SDI_
AC AC111
SDI_
131
SDI_
123
SDI_
135
SDI_
113
SDI_
121
RSV
_IO
GND
RSV
_IO
RSV
_IO
GND GND
GND GND
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
VCC_ VCC_
GND 25_A 25_A GND
GND
GND
GND GND
GND
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
SDI_
138
SDI_
134
GND
SDI_
132
GND
SDI_
144
SDI_
AD AD127
SDI_
131
SDI_
139
SDI_
135
SDI_
129
SDI_
121
GND
RSV
_IO
RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
GND
VCC_
25_
REF_
GND GND GND GND RSV
_IO
CLK
RSV
_IO
RSV
_IO
RSV
_IO
SDI_
138
GND
SDI_
136
SDI_ SDI_
132 140
GND
SDI_
AE AE127
SDI_
147
SDI_
139
SDI_
151
SDI_
129
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
VDD_
25
CLK_
REF_
IN
GND
GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
SDI_
158
SDI_
136
SDI_ SDI_
148 140
SDI_
160
AF GND SDI_
AF147
SDI_
155
SDI_
151
GND
SDI_
149
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
GND
GND
GND
VDD_
25
GND
VDD_
18
VDD_
18
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_
25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
VDD_
18
VDD_
18
GND
CLK_
REF_
OUT
GND
GND
VCC VCC
_IN1 _IN1
RSV
_IO
RSV
_IO
RSV
_IO
GND
SDI_
166
SDI_
158
SDI_
152
SDI_
148
SDI_
156
SDI_
160
SDI_
AG AG143
GND
SDI_
155
GND
SDI_
153
SDI_
149
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
GND GND
GND
GND
GND
GND
GND
GND GND
GND
VCC_
25_A
VCC_
25_A
GND GND
VCC_
25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
GND
GND
GND
GND GND
GND
GND
GND
GND
RSV
_IO
RSV GND RSV
_IO _IO
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_
166 174 152 164 156 176
SDI_
AH AH143
SDI_
163
GND
SDI_
167
SDI_
153
SDI_
169
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
VCC VCC
_IN2 _IN2
GND
GND
EXT
_CLK1
GND
LF1
GND
VCC_ VCC_
25_A 25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
VCC_ VCC_
25_A 25_A
GND
GND VCC_
25_A
VCC_
25_A
GND
LF_
DIGITAL
GND
EXT_
CLK_
DIGITAL
GND
GND
GND GND
RSV
_IO
GND
RSV
_IO
RSV
_IO
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_
186 174 168 164 172 176
SDI_
AJ AJ159
SDI_ SDI_ SDI_ SDI_ SDI_ RSV
163 171 167 177 169 _IO
RSV
_IO
RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND
GND
EXT
_CLK1
VCC_
25_
VCO1
LDO1
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_
25_A
VCC_
25_A
GND
VCC_
25_A
VCC_
25_A
GND
GND
VCC_ VCC_
25_A 25_A
GND
LDO_
DIGITAL
VCC_
VCO_
DIGITAL
EXT_
CLK_
DIGITAL
GND
GND
VCC
_IN1
VCC
_IN1
GND RSV
_IO
RSV
_IO
RSV
_IO
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_
186 206 168 180 172 192
SDI_ SDI_ SDI_ SDI_
AK AK159 175 171 183
SDI_ SDI_ RSV
177 197 _IO
RSV
_IO
RSV
_IO
GND
GND GND GND GND
GND GND
GND GND
GND
GND
GND VDD_ GND
18
GND VDDIO GND
D
GND VDD_ GND
18
GND
GND
GND
GND
GND
GND
GND
GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV RSV
_IO _IO
RSV SDI_ SDI_ SDI_ SDI_ SDI_ SDI_
_IO 214 206 184 180 188 192
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_ RSV
AL AL179 175 187 183 201 197 _IO
RSV
_IO
GND RSV
_IO
GND GND GND GND GND GND TCK TMS
TDO
TDI
GND
GND
P_CS P_R/W P_ADS GND GND
GND GND
GND
GND
RSV RSV RSV RSV
_DNC _DNC _DNC _DNC
GND
GND
GND GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_
214 230 184 196 188 208
SDI_ SDI_ SDI_ SDI_ SDI_ SDI_ RSV
AM AM179 191 187 199 201 217 _IO
GND RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND
GND
GND
P_ADD P_ADD P_ADD P_ADD P_ADD P_ADD P_ADD P_ADD P_ADD P_ADD P_ADD P_ADD UPDATE UPDATE UPDATE UPDATE UPDATE UPDATE UPDATE UPDATE
0 1 2 3 4 5 6 7 8 9 10 11 _EN0 _EN1 _EN2 _EN3 _EN4 _EN5 _EN6 _EN7
GND
GND
GND
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
SDI_
202
SDI_
230
GND
SDI_
196
SDI_ SDI_
204 208
SDI_ SDI_ SDI_ SDI_ SDI_
AN AN195 191 203 199 225
SDI_
217
GND
RSV
_IO
RSV
_IO
RSV
_IO
VCC
_IN2
VCC
_IN2
GND
GND
HOST_
S/P
SCLK
SDIN
SDOUT S_CS
P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT P_DAT
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
GND
GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
SDI_
202
GND
SDI_
200
GND SDI_
204
SDI_
224
SDI_
AP AP195
SDI_
207
SDI_
203
SDI_
215
SDI_
225
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
GND
GND
GND
VDD_
18
GND
VDDIO VDDIO
DD
GND VDDIO VDDIO GND
DD
VDDIO VDD_
D 18
GND
VDD_ VDDIO
18 D
GND
VDDIO VDDIO
DD
GND
VDDIO VDDIO
DD
GND
VDD_
18
GND
GND
VCC
_IN1
VCC
_IN1
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
GND
SDI_
254
SDI_
200
SDI_
212
GND
SDI_
224
GND SDI_
AR AR207
SDI_
219
SDI_
215
GND
SDI_
245
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
GND
GND
GND
VDDIO VDDIO VDDIO
DDD
GND
VDD_
18
GND
VDD_ VDD_ VDD_
18 18 18
GND
VDD_
18
GND
VDD_ VDD_ VDD_
18 18 18
GND
VDD_
18
GND
POR_
DFT
RSV
_DNC
RESET
GND
GND
GND GND
RSV
_IO
RSV
_IO
RSV
_IO
GND
SDI_
262
SDI_
254
SDI_ SDI_
232 212
SDI_
220
GND
SDI_
AT AT211
GND
SDI_
219
GND
SDI_
231
SDI_
245
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND GND
GND GND
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
GND
GND
GND
VCC_
25_A
GND
RSV
_IO
GND
SDI_
258
SDI_
262
SDI_
250
SDI_
232
SDI_
216
SDI_ SDI_
220 240
SDI_
AU AU211
SDI_
223
SDI_
GND 235
SDI_
231
SDI_
265
RSV
_IO
RSV
_IO
RSV
_IO
GND
GND
GND
GND
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
VCC_
OUT2
GND
GND
GND
GND
VCC_
25_A
GND
RSV
_IO
SDI_ SDI_ SDI_ SDI_ SDI_
258 270 250 248 216
SDI_ SDI_
236 240
SDI_
AV AV227
SDI_ SDI_
223 239
SDI_
235
SDI_ SDI_
251 265
RSV
_IO
RSV
_IO
VCC
_IN2
GND
GND
GND
GND
GND
GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND
GND GND
GND
GND GND
GND
GND
VCC
_IN1
RSV
_IO
SDI_
274
SDI_ SDI_
270 278
SDI_ SDI_
248 228
SDI_ SDI_
236 256
SDI_ SDI_
AW AW227 243
SDI_ SDI_
239 255
SDI_ SDI_
251 285
RSV
_IO
GND
GND
GND
GND
GND GND
VCC_
25_A
VCC_
OUT2
VCC_
OUT2
VCC_
OUT2
VCC_
OUT2
VCC_
OUT2
VCC_ VCC_
OUT2 OUT2
VCC_
OUT2
VCC_
OUT2
VCC_ VCC_
OUT2 OUT2
VCC_
OUT2
VCC_ VCC_
OUT2 OUT2
VCC_
OUT2
VCC_
OUT2
VCC_
OUT2
VCC_
OUT2
VCC_ VCC_
OUT2 OUT2
VCC_
OUT2
GND
GND
GND
GND
GND
GND
GND
SDI_ SDI_
274 282
SDI_ SDI_ SDI_ SDI_
278 260 228 252
SDI_
256
SDI_
AY AY247
SDI_
243
SDI_
259
SDI_
255
SDI_
271
SDI_
285
VCC
_IN2
GND
GND
GND
GND
GND
VCC_
25_A
GND
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV RSV RSV
_IO _IO _IO
RSV
_IO
GND
GND
GND
GND
GND
GND
VCC
_IN1
SDI_
282
SDI_ SDI_
286 260
SDI_ SDI_ SDI_
244 252 272
SDI_
BA BA247
SDI_
263
SDI_
259
SDI_
275
SDI_
271
DTHERMK
2
GND
GND
GND
GND
GND
VCC_
OUT2
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
VCC_ GND
OUT2
GND
GND
GND
GND
GND
SDI_ SDI_
286 264
SDI_ SDI_
244 268
SDI_
272
SDI_
BB BB267
SDI_
263
SDI_
279
SDI_
275
DTHERMA
2
GND
GND
GND
GND
GND
GND
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
GND
GND
GND
GND
GND
VCC
_IN1
SDI_
264
SDI_
276
SDI_ SDI_
268 280
SDI_
BC BC267
SDI_
283
SDI_
279
RSV
_DNC
GND
GND
GND
GND
GND
VCC_ SDO_ SDO_ SDO_ SDO_
OUT2 277 277 257 257
GND
RSV
_IO
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND
RSV
_IO
RSV RSV
_IO _IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
GND RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
RSV
_IO
VCC_
OUT2
GND
GND
GND
GND GND GND
SDI_ SDI_
276 284
SDI_
280
SDI_
BD BD287
SDI_
283
VCC
_IN2
GND GND GND
GND
GND
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
281 281 253 253 233 233
GND
SDO_
209
SDO_
209
SDO_
185
SDO_
185
SDO_
161
SDO_
161
SDO_
141
SDO_
141
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
113 113 89 89 97 97 45 45
GND
SDO_
53
SDO_
53
SDO_
13
SDO_
13
SDO_
5
SDO_ DTHERMK
51
GND
GND
GND
GND
GND
RSV
_DNC
SDI_
284
EXT
_PG0
SDI_
BE BE287
GND
GND
GND
GND GND
GND
VCC_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
OUT2 285 285 261 261 237 237 213 213
GND
SDO_
189
SDO_
189
SDO_
165
SDO_ SDO_ SDO_ SDO_ SDO_
165 149 149 137 137
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
109 109 101 101 77 77 29 29
GND
SDO_
67
SDO_
67
SDO_
31
SDO_
31
SDO_
11
SDO_ DTHERMA
11 1
GND
GND GND GND
GND
RSV
_DNC
EXT
_PG0
BF BFGND
GND
GND GND
GND
GND
GND
SDO_ SDO_
279 279
SDO_ SDO_ SDO_
263 263 247
SDO_ SDO_
247 231
SDO_
231
SDO_ SDO_
215 215
GND
SDO_
199
SDO_ SDO_ SDO_
199 183 183
SDO_
167
SDO_
167
SDO_ SDO_
151 151
GND
SDO_ SDO_
135 135
SDO_
119
SDO_ SDO_
119 103
SDO_ SDO_
103 87
SDO_
87
GND
SDO_
63
SDO_ SDO_ SDO_ SDO_ SDO_ RSV
63 35 35 27 27 _DNC
GND
GND
GND
GND
GND
GND
BG BGNC
GND
GND GND
GND
RSV
_DNC
SDO_
283
SDO_
283
SDO_
267
SDO_
267
SDO_ SDO_ SDO_ SDO_
251 251 235 235
SDO_ SDO_
219 219
GND
SDO_
203
SDO_ SDO_ SDO_ SDO_
203 187 187 171
SDO_ SDO_ SDO_ SDO_ SDO_
171 155 155 139 139
GND
SDO_
123
SDO_
123
SDO_ SDO_ SDO_ SDO_ SDO_
107 107 91 91 71
SDO_
71
GND
SDO_
83
SDO_
83
SDO_ SDO_ SDO_ SDO_
15 15
3
3
VCC_
OUT2 GND
GND
GND
GND
NC
BH NC
NC
GND
GND
RSV
_DNC
SDO_
287
SDO_
287
SDO_
271
SDO_
271
SDO_
255
SDO_
255
SDO_
239
SDO_
239
SDO_
223
SDO_
223
GND
SDO_
211
SDO_
211
SDO_
195
SDO_
195
SDO_
179
SDO_ SDO_
179 159
SDO_
159
SDO_
147
SDO_
147
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
131 131 115 115 99
99 75
75
GND
SDO_
55
SDO_
55
SDO_
47
SDO_
47
SDO_
51
SDO_
51
SDO_
7
SDO_
7
DIGITAL
_CL_SEL
GND
GND
NC
NC BH
BJ BJNC
NC
NC
GND
MON1 MON1
SDO_
275
SDO_
275
SDO_
259
SDO_
259
SDO_
243
SDO_ SDO_
243 227
SDO_
227
GND
SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_ SDO_
207 207 191 191 175 175 163 163 143 143
GND
SDO_
127
SDO_
127
SDO_
111
SDO_
111
SDO_
95
SDO_
95
SDO_
79
SDO_
79
GND
SDO_
59
SDO_
59
SDO_
39
SDO_
39
SDO_ SDO_
23 23
SDO_
43
SDO_ SDO_ SDO_
43 19 19
GND
NC
NC NC
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49
Figure 1-1: GX3202 Ball Assignment Overview (Top View)
GX3202 202 x 202 3.5Gb/s Crosspoint
Data Sheet
56077 - 1
October 2012
5 of 49
Proprietary & Confidential
5 Page 
2.3 DC Electrical Characteristics
Table 2-3: DC Electrical Characteristics
Parameter
System
Symbol
Power
P
Power in Reset Mode
Current - VCC_25_A
P
ICC_25_A
Conditions
Min Typ Max Units Note
All channels active,
VCC_IN[1,2] =
VCC_OUT[1,2] = 1.2V±5%,
ΔVOD = 200mV,
ΔVSDI = 800mVppd,
de-emphasis=6, without
Pattern
Generator/Checker,
AC-coupled
—
25 31.6
All channels active,
VCC_IN[1,2] =
VCC_OUT[1,2] = 1.2V±5%,
ΔVOD = 400mV,
ΔVSDI = 800mVppd,
de-emphasis=6, without
Pattern
Generator/Checker,
AC-coupled
—
27.35
—
All channels active,
—
32.20
39.5
VCC_IN[1,2] =
VCC_OUT[1,2] = 2.5V±5%,
ΔVOD = 800mV,
ΔVSDI = 800mVppd,
de-emphasis=6, without
Pattern
Generator/Checker,
AC-coupled
All channels active,
VCC_IN[1,2] =
VCC_OUT[1,2] = 2.5V±5%,
ΔVOD = 1200mV,
ΔVSDI = 800mVppd,
de-emphasis=6, without
Pattern
Generator/Checker,
AC-coupled
—
35.5 43.8
Pattern
Generator/Checker
— 1.86 —
RESET = 0
— 0.5 —
With de-emphasis,
without Pattern
Generator/Checker
— 10 11.9
Without de-emphasis,
without Pattern
Generator/Checker
— 9.5 —
W
W
W
W
W
W
A
A
1
1
1
1
—
—
—
—
GX3202 202 x 202 3.5Gb/s Crosspoint
Data Sheet
56077 - 1
October 2012
11 of 49
Proprietary & Confidential
11 Page | ||
| Páginas | Total 30 Páginas | |
| PDF Descargar | [ Datasheet GX3202.PDF ] | |
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