PH11107 [ETC]
802.11A/B/G MINI PCI CARD; 支持802.11a / b / g的小型PCI卡型号: | PH11107 |
厂家: | ETC |
描述: | 802.11A/B/G MINI PCI CARD |
文件: | 总18页 (文件大小:494K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
DATA SHEET – PRELIMINARY
802.11A/B/G MINI PCI CARD
PH11107/PH12127
802.11a/b/g Mini PCI Card
PH11107/12127
MAIN FEATURES OF THIS DESIGN
•
•
•
•
•
IEEE 802.11a compatible
IEEE 802.11b compatible
IEEE 802.11g compatible
Support for draft 802.11e, 802.11f, 802.11h and 802.11i standards
Orthogonal Frequency Division Multiplexing (OFDM) modulation schemes supported for both frequency
ranges
Data rates of 1, 2, 5.5, 11 Mbps (802.11b)
Data rates of 6, 9, 12, 18, 24, 36, 48, and 54 Mbps (802.11a/g)
Turbo Mode™ offering up to 108-Mbps data rate (optional)
Supports dual-band antenna diversity
Standard MiniPCI Type III (A or B) form factor
Antenna connectors for use with laptop with built-in antenna
Low power sleep mode
AdHoc and Infrastructure modes supported, for use in office and peer-to-peer wireless networks
Automatic data rate and mode selection
Encryption – WEP (Wire Equivalent Privacy) 64 and 128-bit modes, as well as TKIP (Temporal Key
Integrity Protocol)
Wi-Fi™ certification pending
•
•
•
•
•
•
•
•
•
•
•
•
•
•
WHQL (Windows® Hardware Quality Labs ) certification pending
Supports passive and active scanning, subject to local regulatory requirements
Dynamic frequency selection/Dynamic power control. DFS/TPC (Dynamic Frequency Selection/Transmit
Power Control) used for international operation
Full 802.11a frequency range, covers 5.15-5.85 GHz, subject to local regulatory requirements
Full 802.11b frequency range coverage
•
•
•
•
•
•
•
•
Support for hardware RF silence
LEAP support
CCX support
WPA support
802.1x support
Customisation upon request
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DESCRIPTION
The Arcadyan™ 802.11a/b/g MiniPCI Card is a Type (IIIA or IIIB) MiniPCI Card, which provides WLAN
networking to the host PC.
IEEE 802.11A STANDARD
802.11a networking uses 300 MHz of bandwidth in the 5 GHz Unlicensed National Information Infrastructure
(U-NII) band. The lower 200 MHz of this band is physically contiguous, but the FCC has divided the total 300
MHz into three distinct 100 MHz domains, each with a different legal maximum power output. The lowest
frequency space lies between 5.15 and 5.25 GHz, the middle frequency band lies between 5.25 and 5.35
GHz, and the highest frequency band, which lies between 5.725 - 5.825 GHz. One requirement specific to
the low band is that all devices must use integrated antennas.
IEEE 802.11H STANDARD
IEEE 802.11h is a pending standard required for European regulatory compliance. It adds Transmit Power
Control and Dynamic Frequency Selection to the 802.11a (5 GHz) standard. It also adds support for eleven
more channels between 5.5 GHz and 5.7 GHz.
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JAPAN SUPPORT
In Japan, 5 GHz signalling occurs on four lower channels, which are offset by 10 MHz from their European
and North American counterparts. The channels for Japan are 5.17, 5,19, 5.21, and 5.23 GHz.
IEEE 802.11B SUPPORT
IEEE 802.11b networking uses 62 MHz of bandwidth in the 2.4 GHz Industrial Scientific and Medical (ISM)
band. This device uses 13 overlapping channels between 2.412-2.472 MHz (USA) and one channel at 2.484
GHz (Japan).
IEEE 802.11G STANDARD
IEEE 802.11g is a new standard for OFDM signalling at 2.4 GHz. It promises provides similar data rates to
IEEE 802.11a networking, with the range and penetration capabilities of IEEE 802.11b networking.
REGULATORY REQUIREMENTS
The 802.11a/b/g MiniPCI Card can be configured to support local regulatory requirements, and Arcadyan has
solutions to implement worldwide conformance with the minimum number of configurations.
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PCI AND MINIPCI STANDARD
The PCI Local Bus is a high performance 32-bit or 64-bit bus with multiplexed address and data lines. The
bus is intended for use as an interconnect mechanism between highly integrated peripheral controller
components, peripheral add-in cards, and processor/memory systems. The Mini PCI Specification 1.0 defines
an alternate implementation for small form factor PCI cards referred to in this specification as a Mini PCI
Card. This specification uses a qualified sub-set of the same signal protocol, electrical definitions, and
configuration definitions as the PCI Local Bus Specification 2.3.
THE 802.11A/B/G MINIPCI CARD
In the 5 GHz band, the 802.11a/b/g MiniPCI Card uses all 12 IEEE 802.11a channels, but does not support
the high-power modes in the upper channels. The 802.11a/b/g MiniPCI Card also supports tuning to the
Japan allocated 5 GHz frequency band from 5.17 to 5.23 GHz. The 802.11a/b/g MiniPCI Card uses the
MiniPCI socket on a Microsoft® Windows®-based host computer to provide wireless networking to the
computer. Once the NDIS (Network Driver Interface Specification) driver is installed and configured, the
802.11a/b/g MiniPCI Card allows peer-to-peer (Ad-Hoc Mode) connections with other computers with
802.11a or 802.11b/g products installed, and also allows connections between the host computer and
802.11a or 802.11b/g-based access points (Infrastructure Mode).
The IEEE 802.11a/b/g MiniPCI Card operates from the PC host power supply and comprises of a baseband
section and an RF section, refer to Figure 2. The baseband section deals with the interface to the host PC
via the MiniPCI interface, and provides the data formatting, encoding and encryption required by both IEEE
802.11a and IEEE 802.11b/g standards. Selection between IEEE 802.11a, b, and g is determined within the
NDIS driver configuration on the host PC using information provided by the baseband processor of the
802.11a/b/g MiniPCI Card. A discrete EEPROM memory device holds configuration data including the MAC
address of the 802.11a/b/g MiniPCI Card.
The Baseband Processor is the origin and destination for all the front-end signals. Both transmit and receive
signals are switched and transferred either to a 5 GHz front-end or to a second chip (2.4 GHz RF
Transceiver) which up converts or down converts the 5 GHz signals to 2.4 GHz. The 2.4 GHz RF Transceiver,
in turn, feeds a 2.4 GHz front-end. Both the 2.4 GHz and 5 GHz front-ends are combined via two diplexers,
which are designed to feed two dual-band diversity antennas.
The 5 GHz signal is equivalent to the IEEE 802.11a signal, while the 2.4 GHz signal is equivalent to the IEEE
802.11b signal.
The 5 GHz transmit signal is filtered after passing through an RF switch. The filter removes the different by-
products of the internal 5 GHz RF Transceiver local oscillator (LO). Also, the 5 GHz transmit signal is
boosted with power amplifier (PA). The PA drives a coupler/detector (PDET) assembly. The
coupler/detector’s function is to sample the transmit signal and rectify it.
The rectified signal is proportional to the output power and is used for power levelling and control. The 5
GHz transmit signal then passes through a bridge switch. The bridge switch is a diversity (transfer) type and
has 4 ports: two inputs (transmit and receive) and two outputs (antennas). It enables the connection of any
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of the input ports to either one of the outputs. The 5 GHz transmit signal is then transferred through a Low
Pass Filter (LPF) which removes any 5 GHz harmonics generated by the PA and bridge switch.
The 5 GHz transmit signal then passes through a diplexer to the antenna port. The diplexer has a common
(antenna) port and two more ports for 5 GHz and 2.4 GHz. The diplexer is transparent to 5 GHz signals
between the common and 5 GHz port. Likewise, the diplexer is transparent to 2.4 GHz signals between the
common port and the 2.5 GHz port. The diplexer includes a low pass filter for 2 GHz harmonic rejection.
The 5 GHz receive signal is transferred in a reverse order from the antenna through the diplexers and bridge
switches. It is filtered to reject image frequencies via a BPF (Band Pass Filter) and boosted via a LNA (Low
Noise Amplifier).
The transmit and receive 2.4 GHz signals follow a similar path as the 5 GHz signals in the 2.4 GHz front-end.
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PERFORMANCE
Note: 802.11g performance numbers are preliminary, and subject to change
RECEIVER
802.11a
Sensitivity
6Mbps 9 Mbps
-90
12 Mbps
-89
18 Mbps
-87
24 Mbps
-84
36 Mbps 48 Mbps 54 Mbps Units
-80
-74
-72
dBm
-91
802. 1Mbp
2
5.5
11
6
9
12
18
24
36
48
54
Units
11b/
g
s
Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps
Sensi -93
tivity
-92
-91
-89
-89
-88
-86
-84
-82
-78
-72
-68
dBm
TRANSMITTER
802.11a
6 Mbps 9 Mbps 12
Mbps
17
18
24
36
48
54
Units
Mbps
17
Mbps
17
Mbps
15
Mbps
Mbps
13
Avg.
5.170-
17
16
17
16
14
dBm
Channel 5.700
Power
Avg.
Channel 5.865
GHz
5.745-
16
16
16
15
12
10
dBm
Power
GHz
802.
11b/
g
Avg.
Chan
nel
Powe
r
1
2
5.5
11
6
9
12
18
24
36
48
54
Units
Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps Mbps
Mbps
17 17 17 17 17 17 17 17 17 15.5 13.5
11.5
dBm
Channel Power may be limited, subject to local regulatory requirements.
DC CHARACTERISTICS
The following conditions apply to all PCI interface DC characteristics unless otherwise specified:
Vdd = 3.3 V, Tamb = 25 °C
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SYMBOL
PARAMETER
Supply Voltage
High level
CONDITION
MIN
MAX
UNITS
NOTES
VDD
3.0
3.6
V
VIH
input voltage
Low level
—
0.7 Vdd
-0.5
Vdd + 0.5
V
—
—
1
VIL
input voltage
Input pull-up
voltage
Input leakage
current
High level
—
0.3 Vdd
—
V
VIPU
IIL
—
0.7 Vdd
—
V
0 < Vin < Vdd
± 10
—
µA
V
2
VOH
VOL
CIN
output voltage Iout = -500µA 0.9 Vdd
—
—
3
Low level
output voltage
Input
capacitance
PCI_CLK pin
capacitance
PCI_IDSEL pin
capacitance
Pin inductance
Iout = 1500µA
—
0.1
—
Vdd
10
V
—
—
pF
pF
CCLK
5
12
—
4
CIDSEL
LPIN
—
—
—
—
8
20
pF
nH
Notes:
1. By design. Minimum voltage to which pull-up resistors are calculated to pull a floated network. Applications sensitive to static power
utilization must ensure that the input buffer is conducting minimum current at this input voltage.
2. Input leakage currents include hi-Z output leakage for all bi-directional buffers with tri-state outputs.
3. Absolute maximum pin capacitance for a PCI input is 10 pF (except for PCI_CLK).
4. Lower capacitance on this input-only pin allows for nonresistive coupling to PCI_AD[XX].
POWER CONSUMPTION
The 802.11a/b/g MiniPCI Card supports the following power modes:
UNITS
mW
mW
mW
mW
MODE
UNINITIALIZED
TX
RX
IDLE/LISTENING SLEEP
802.11b
802.11a
802.11a
Turbo mode
33
33
33
33
1640
1782
1897
2294
832
815
1402
1234
898
822
1320
NA
33
33
33
33
ENVIRONMENTAL
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NON-OPERATIONAL CONDITIONS:
•
•
•
•
Ambient temperature : -40°C to +85°C
Relative humidity : 5-95%, non-condensing.
Bump acceleration : According to Mini PCI Specification 1.0
Shock acceleration : According to Mini PCI Specification 1.0
OPERATIONAL CONDITIONS:
•
Ambient temperature : 0°C to +60°C
•
Relative humidity : 95% max
DEFINITION OF TERMINALS / LED DATA
The 802.11a/b/g MiniPCI Card is compliant with PCI 2.3. During operation, the interface provides data and
command transfer between the host software and the DMA engine, and the configuration registers of the
802.11a/b/g MiniPCI Card. For details refer to the PCI 2.3 specification. Signals in grey are not used by this
product.
PIN
SIGNAL
DESCRIPTION
Conductor of
the wire pair
comprising the
local loop.
-
PIN
SIGNAL
DESCRIPTION
3.3 V Supply
voltage
1
TIP
63
3.3V
Key
64
65
FRAME#
Indicates Bulk
Transfer
Used to stop
clock on
certain mobile
PCI devices
Target Ready
2
RING
Conductor of
the wire pair
comprising the
local loop.
CLKRUN#
3
4
5
6
7
8PMJ-3
8PMJ-1
8PMJ-6
8PMJ-2
8PMJ-7
8PMJ-4
Pin 3 of an 8-
pin modular
jack interface
Pin 1 of an 8-
pin modular
jack interface
Pin 6 of an 8-
pin modular
jack interface
Pin 2 of an 8-
pin modular
jack interface
Pin 7 of an 8-
pin modular
jack interface
Pin 4 of an 8-
pin modular
66
67
68
69
70
TRDY#
SERR#
STOP#
GROUND
3.3V
Indicates
catastrophic
system error
Indicates
target wishes
to end transfer
Ground
3.3 V Supply
voltage
8
71
PERR#
Indicates
Parity Error
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jack interface
9
8PMJ-8
8PMJ-5
Pin 8 of an 8-
pin modular
jack interface
Pin 5 of an 8-
pin modular
jack interface
Interface for
external LEDs
Interface for
external LEDs
72
73
DEVSEL#
C/BE[1]#
PCI Device
Select
10
Byte Enable
11
12
LED1_GRNP
LED2_YELP
74
75
GROUND
AD[14]
Ground
Multiplexed
Address/Data
Bus
13
LED1_GRNN
RF Silent input 76
AD[15]
Multiplexed
Address/Data
Bus
14
15
LED2_YELN
CHSGND
Interface for
external LEDs
Chassis Ground 78
77
GROUND
AD[13]
Ground
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
16
17
18
RESERVED
INTB#
5V
-
79
80
81
AD[12]
AD[11]
AD[10]
Interrupt
Request B
5 V Supply
voltage
Multiplexed
Address/Data
Bus
19
20
21
3.3V
3.3 V Supply
voltage
Interrupt
Request A
-
82
83
84
GROUND
GROUND
AD[09]
Ground
INTA#
Ground
RESERVED
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
Byte Enable
Multiplexed
Address/Data
Bus
22
RESERVED
-
85
AD[08]
23
24
GROUND
3.3VAUX
Ground
3.3 V supply-
uninterrupted
86
87
C/BE[0]#
AD[07]
25
CLK
PCI Clock
PCI Reset
88
3.3V
3.3V
3.3 V Supply
voltage
3.3 V Supply
26
RST#
89
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voltage
27
28
29
GROUND
3.3V
Ground
90
91
92
AD[06]
AD[05]
AD[04]
Multiplexed
Address/Data
Bus
3.3 V Supply
voltage
Multiplexed
Address/Data
Bus
REQ#
PCI Bus
Request
Multiplexed
Address/Data
Bus
30
31
GNT#
3.3V
PCI Bus Grant
3.3 V Supply
voltage
93
94
RESERVED
AD[02]
-
Multiplexed
Address/Data
Bus
32
33
34
35
36
GROUND
AD[31]
Ground
95
96
97
98
99
AD[03]
AD[00]
5V
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
Power
Management
Event
PME#
5 V Supply
voltage
AD[29]
Multiplexed
Address/Data
Bus
RESERVED_WIP
5
-
RESERVED
-
AD[01]
Multiplexed
Address/Data
Bus
-
37
38
GROUND
AD[30]
Ground
100
101
RESERVED_WIP
5
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
3.3 V Supply
voltage
Multiplexed
Address/Data
Bus
GROUND
Ground
39
AD[27]
102
GROUND
Ground
40
41
3.3V
103
104
AC_SYNC
M66EN
AC97 Sync
AD[25]
Enables 66
MHz PCI bus
42
AD[28]
Multiplexed
Address/Data
Bus
105
AC_SDATA_IN
AC97 Data
Input
43
RESERVED
-
106
AC_SDATA_OUT AC97 Data
Output
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AC97 Bit Clock
44
AD[26]
Multiplexed
Address/Data
Bus
107
AC_BIT_CLK
CODEC_ID0#
45
46
C/BE[3]#
AD[24]
Byte Enable
108 AC_
109
Identifier for
AC97 CODEC
AC_CODEC_ID1 Identifier for
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
#
AC97 CODEC
AC97 Reset
47
48
AD[23]
IDSEL
110
111
AC_RESET#
Initialization
Device Select
Ground
MOD_AUDIO_M
ON
RESERVED
AUDIO_GND
Modern Audio
Monitor
-
49
50
GROUND
GROUND
112
113
Ground
Analog Ground
for line-level
audio
51
52
53
54
55
56
57
58
59
60
AD[21]
AD[22]
AD[19]
AD[20]
GROUND
PAR
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
Multiplexed
Address/Data
Bus
114
115
116
117
118
119
120
121
122
123
GROUND
Ground
SYS_AUDIO_OU Telephone
T
Audio Out
SYS_AUDIO_IN
Telephone
Audio In
Multiplexed
Address/Data
Bus
SYS_AUDIO_OU Analog Ground
T GND
for telephone
audio
Ground
SYS_AUDIO_IN
GND
Analog Ground
for telephone
audio
Analog Ground
for line-level
audio
Parity Bit
AUDIO_GND
AUDIO_GND
RESERVED
MPCIACT#
VCC5VA
AD[17]
AD[18]
C/BE[2]#
AD[16]
Multiplexed
Address/Data
Bus
Analog Ground
for line-level
audio
Multiplexed
Address/Data
Bus
-
Byte Enable
MiniPCI
Function
Active
Multiplexed
Address/Data
Bus
5V Analog
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61
IRDY#
Initiator Ready 124
Ground
3.3VAUX
3.3 V supply-
uninterrupted
62
GROUND
LED
There is a signal on the MiniPCI card which can be connected inside the host to an external LED. The Anode
of the LED should be connected to LED1_YELP – pin 12 of the MiniPCI connector and the Cathode of the LED
should be connected to LED1_YELN – pin 14 of the MiniPCI connector.
LED
MEANING
Looking for network
association
Slow-rate blink
Associated or joined with
network; no activity
Associated or joined with
network; blink rate
increases with activity on
the network over the air
or locally on the network
device based on setting
of the PCI configuration
register
ON
Fast-rate blink
Radio is off (card may
still be powered)
OFF
RF SILENT
Pin 13 of the MiniPCI connector is used to turn the radio off. It can be connected to an external switch, to
disable the radio without software intervention (for example – before opening a laptop on a plane, where a
WLAN may be disallowed). Pull this pin low to turn off the radio.
ANTENNAS
There are two antenna connectors (Hirose u.FL-type) along the top edge of the card which should be
connected to dual-band antennas.
SOFTWARE/SYSTEM REQUIREMENTS
MEDIA SUPPLIED WITH 802.11A/B/G MINIPCI CARD
The 802.11a/b/g MiniPCI Card ships with a single 3” Mini-CD, which contains drivers and PDF files with
installation and usage instructions.
APPLICATIONS SUPPLIED WITH 802.11A/B/G MINIPCI CARD
Once installed, the driver provides standard NDIS (Network Driver Interface Specification) services to the
host operating system.
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NDIS (Network Driver Interface Specification) is a Windows. specification for how communication protocol
programs (such as TCP/IP) and network device driver should communicate with each other. Using NDIS,
Windows. software developers can develop protocol stacks that work with the MAC driver for any hardware
manufacturer's communications adapter. By the same token, any adapter maker can write a MAC driver
software that can communicate with any protocol stack program.
An API is provided to the customer to enable custom configuration applications with access to the
parameters and modes of the 802.11a/b/g MiniPCI Card.
A sample configuration application is also supplied, which allows the end-user to configure parameters and
modes of the 802.11a/b/g MiniPCI Card.
OPERATING SYSTEMS SUPPORTED BY 802.11A/B/G MINIPCI CARD
Support for Microsoft Windows®98SE, 2000, and XP. Linux, VX Works support is in progress.
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MECHANICAL DIMENSIONS
Inches [mm]
Legend:
1. Mini-PCI card-edge connector
2. Top side RF shield
3. Top side label
4. Bottom side RF shield
5. Bottom side label
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PACKAGING
The modules are packed in a cardboard box. The packaging meets the requirements of transportation
test stipulated in UAN-D1463. The transport of filled boxes should be done on pool pallets.
Packaging can be customized according to customer specifications.
ORDERING INFORMATION
TYPE
FORM FACTOR
RF-CONNECTOR(S)
DESCRIPTION
PART NUMBER
802.11a/b/g Wireless
LAN Adapter with
PH11107/1
2127
Two RF connectors
MiniPCI Type IIIA
Hirose u.FL-R-SMT(01) MiniPCI Type IIIA Host
Interface
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DEFINITIONS
Data sheet status
Objective specification This data sheet contains target or goal specifications for product
development.
Preliminary
This data sheet contains preliminary data; supplementary data may be
published later.
This data sheet contains final platform specification.
specification
Platform specification
Application Information
Where application information is given, it is advisory and does not form part of the specification
LIFE SUPPORT APPLICATIONS
These platforms are not designed for use in life support appliances, devices, or systems where malfunctions
of these platforms can reasonably be expected to result in personal injury. Arcadyan customers using or
selling these platforms for use in such applications do so at their own risk and agree to fully indemnify
Arcadyan for any damages resulting from such improper use or sale.
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CONTACT INFORMATION
Headquarters:
4F, No. 9, Park Avenue II
Science-Based Industrial Park,
Hsinchu 300, Taiwan, R.O.C
Taiwan@arcadyan.com
USA:
1962 Zanker Road,
San Jose, CA 95112
USA
US@arcadyan.com
www.arcadyan.com
Arcadyan Technology Corporation, 2003
All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of
the copyright owner.
“Arcadyan” is a trademark of Arcadyan Technology Incorporated.
All other trademarks mentioned are the property of their respective owners.
Every effort has been made to ensure the accuracy of the information presented.
The information presented in this document does not form part of any quotation or contract, is believed
to be accurate and reliable and may be changed without notice. No liability will be accepted by the
publisher for any consequence of its use. Publication thereof does not convey nor imply any license under
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ADAM-TECH
PH112SGAHT
Board Connector, 12 Contact(s), 1 Row(s), Male, Straight, 0.1 inch Pitch, Solder Terminal, Receptacle
ADAM-TECH
PH112SGASMT
Board Connector, 12 Contact(s), 1 Row(s), Male, Straight, 0.1 inch Pitch, Receptacle
ADAM-TECH
PH112SGBSMT
Board Connector, 12 Contact(s), 1 Row(s), Male, Straight, 0.1 inch Pitch, Receptacle
ADAM-TECH
PH112TBHT
Board Connector, 12 Contact(s), 1 Row(s), Male, Straight, 0.1 inch Pitch, Solder Terminal, Receptacle
ADAM-TECH
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