SSA Enhanced Adapter 4-G
SSA Enhanced Adapter Front FRU
89H5667 / FC 6216
LED Loop B
LED Loop A
J1, J9 Solder pads for SIMM sockets
J2, J6 Internal SSA ports
J3 "B2" SSA
Loop B Port 2
J4 Solder pads for 140 position
J5 Solder pads for cache socket
J7 "B1" SSA
Loop B Port 1
J8 "A2" SSA
Loop A Port 2
J9 "A1" SSA
Loop A Port 1
J14 Solder Pads for PS/2 Serial
TH1 PTC Resistor
U2 50.0000 Mhz Osc
U3, 5, 8, 10 TC559128AJ-20
U4 Xilinix XC4413-PQ240C 6070
U6 31H8637 BIOS Odd?
U7 Phillips SCC2691AC1A28
U9 Solder pads for 88G6298
U12 34G1521 (Miami module)
U13 Solder pads for Dallas DS1225AD-170
U14 40.000 Mhz Osc
U15 31H8636 BIOS Even?
U29, 27, 26, 28 Solder pads
I noticed that the Microchannel SSA adapters all use the same PCB. Dan
Kalish, mouthpiece for the Microchannel Mafia, sent me a 4-G so I could
get it right.
U6 / U15
31H8637 BIOS Odd / 31H8636 BIOS Even. The 4-G uses the same P/N BIOS as
the 4-I. This makes me hopefull that a common ADF and drivers can be used
for all MCA SSA adapters..
The adapter card has 2 internal SSA connectors and 4 external
connectors. This allows one of the 2 dual-port SSA nodes to be connected
either internally or externally to the system unit. The internal connectors
are 2 x 3 pin SSA connectors.
Ports B1 and B2 have both internal and external
connectors. The marking also indicates that ports A1 and A2 are paired,
that is, they are connected to the same SSA loop interface chip.
Similarly, ports B1 and B2 are paired.
+5 V power is available on the connector to power an external optical
Interior SSA Port Pinouts
Thanks to David Ress for finding this after I lost the
reference... Pin 1 is marked on the outside of the header on the PCB.
1 Line Out + 6 Line Out -
2 Ground 5 Ground
3 Line In - 4 Line In +
Dave Ress tips back his miner's helmet and says:
I checked the SSA adapter I have, and it has the solder
pads for a 6-pin port, but that is all. Looking at the A side and numbering
the solder pads from left to right, I find:
Pad 1 - GND
Pad 2 - Pin 5 of U7
Pad 3 - Pin 4 of U7
Pad 4 - Pin 3 of U7
Pad 5 - Pin 6 of U7
Pad 6 - +5 V
Looking at: SCC2691AC1A28
we learn that U7 is a UART, so the PS/2 port is really a serial port as
the pins of U7 are mapped as:
Pin 3 - RxD
Pin 4 - TxD
Pin 5 - MPO => multi-purpose output (clock pulse?)
Pin 6 - MPI => multi-purpose input (clock pulse?)
Beyond that, I have no idea where the U7 chip interfaces to. I tried
to map D0-7, but no luck there.
SSA connectors are 9-pin high-density shielded ITT-Canon
Micro MDSM connectors
Pin Assignment Pin Assignment
6 Line Out +
2 Line Out -
7 No connection
8 +5 V
4 Line In -
9 Line In +
SSA Drive Connectors
David Ress started diddling and said:
I took one of my SSA drives carriers apart this morning. It originally
went into a 7133.
I did this for two reasons: first, I have always wondered how to connect
an internal SSA drive up to the B1 and B2 internal connectors. Second,
if the SSA adapter has just a six pin ribbon connector, I was curious what
the physical connector looked like on the SSA drive.
In looking at the SSA drive carrier, the first thought was "what in
the world?", as the SSA drive carrier has a EURO 72-Pin style connector
(think mini-Nubus). 72 pin connector to support a 6 pin ribbon connector?
But, as it turns out, 32 of the pins are no-connect.
Further disassembling the SSA drive carrier revealed a IBM DFHC 4.5GB
drive, made in 1996. Note: the SSA drive carrier has a label that
says assembled on 23 Feb 2000, I guess IBM had many units left over.
In removing the DFHC I learned that the connector is very unusual, unlike
anything I have seen before. I guess I was hoping to see a SCSI-2 connector
as SSA is a superset of the SCSI-2 protocol, but that was very much wishful
thinking on my part.
SSA Unitized Connector
SSA Port on Unitized Connector
Option Port on Unitized Connector
Power Port on Unitized Connector
4 x 32 female contact, BERG HPC connector, part
number 99F9429. Ed. There seems to
be different models with different carrier interfaces. YMMV.
A fibre-optic extender is available to connect an industry-standard
fiber optic cable within an SSA loop when that loop is used with a 7133
SSA Disk Subsystem. With a fibre-optic extender attached at each node,
the distance between them can be up to 2.4 km. The maximum sustainable
data-transfer rate in a single direction on an SSA link is approximately
18 MB/s. Extending the link with a fiber optic cable results in no degradation
of this data-transfer rate for lengths up to 200 meters, and a gradual
reduction in the achievable data-transfer rate beyond this distance. This
data-transfer rate reduction generally has no effect on SSA subsystem performance
for most applications.
Light Pipes on D4 and D5
Both LEDs are normal LEDs on the PCB. There are light
pipes to transmit the light to the outside.
Each pair of connectors has a green light that indicates the operational
status of its related loop:
|Status of Light
||Both SSA connectors are inactive. If disk drives or other SSA adapters
are connected to these connectors, either those disk drives or adapters
are failing, or their SSA links are not active.
|| Both SSA links are active (normal operating condition)
||One port of a SSA loop interface is not operational
SSA Enhanced Adapter Back
|J12, 13 Solder pads for 40 pin
U17 VLSI-ARM VY86C06040
U19, 25 88H5516
U31 Solder pads for AM29F040-120EC
40 MHz version of the ARM6 Application-Specific Standard Product
(ASSP) version of the new ARM processor, designed the VY86C06040, is pin-to-pin
compatible with lower clock frequency versions. It operates with
a 40 MHz clock and exhibits a peak performance of 40 MIPS and a sustainable
performance of 26 MIPS at 5
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