Q-Bus
Q-Bus | |
Created by | Digital Equipment Corporation |
---|
The Q-bus[1] (also known as the LSI-11 Bus) was one of several bus technologies used with PDP and MicroVAX computer systems manufactured by the Digital Equipment Corporation of Maynard, Massachusetts.
The Q-bus was a less expensive version of Unibus using multiplexing so that address and data signals shared the same wires. This allowed both a physically smaller and less-expensive implementation of essentially the same functionality.
Over time, the physical address range of the Q-bus was expanded from 16 to 18 and then 22 bits. Block transfer modes were also added to the Q-bus.
Main features of the Q-bus
Like the Unibus before it, the Q-bus used:
- Memory-mapped I/O
- Byte addressing
- A strict master-slave relationship between devices on the bus
- Asynchronous signaling
Memory-mapped I/O means that data cycles between any two devices, whether CPU, memory, or I/O devices, used the same protocols. On the Unibus, a range of physical addresses were dedicated for I/O devices. The Q-bus simplified this design by providing a specific signal (originally called BBS7, Bus Bank Select 7 but later generalized to be called BBSIO, Bus Bank Select I/O) that selected the range of addresses used by the I/O devices.
Byte addressing means that the physical address passed on the Unibus was interpreted as the address of a byte-sized quantity of data. Because the bus actually contained a data path that was two bytes wide, address bit [0] was subject to special interpretation and data on the bus had to travel in the correct byte lanes.
A strict Master-Slave relationship means that at any point in time, only one device could be the Master of the Q-bus. This master device could initiate data transactions which could then be responded to by a maximum of one selected slave device. (This had no effect on whether a given bus cycle was reading or writing data; the bus master could command either type of transaction.) At the end of the bus cycle, a bus arbitration protocol would then select the next device to be given mastership of the bus.
Asynchronous signaling means that the bus had no fixed cycle time; the duration of any particular data transfer cycle on the bus was determined solely by the master and slave devices participating in the current data cycle. These devices used handshake signals to control the timing of the data cycle. Timeout logic within the master device limited the maximum allowed length of any given bus cycle.
Depending on its generation, the Q-bus contained 16, 18, or 22 BDAL (Bus Data/Address Line) lines. 16, 18, or 22 BDAL lines were used for the physical address portion of each bus cycle. Eight or 16 DBAL lines were then re-used for the data portion(s) of each bus cycle. Newer generations of the bus allowed block mode transfer where a single bus address could be followed by more than one data cycle (with the transfers taking place at consecutive bus addresses). Because the address portion of each bus cycle can not transfer data, the use of block mode meant fewer address cycles and more time for data cycles, allowing increased bus data transfer bandwidth.
Bus mastery was awarded based on an I/O card's topological proximity to the bus arbitrator (at the logical front of the bus); closer cards were granted priority over further cards.
Interrupts could be delivered to the Interrupt Fielding Processor at any of four priority levels. Within a given level, the cards closer to the IFP (at the front of the bus) took priority over cards further back on the bus. Interrupts were vectored: a card requesting an interrupt had its interrupt vector read by the IFP. In this way, the interrupts from all I/O cards in the system could be distinguished with no ambiguity.
Logic minimization
As with the Unibus, the signaling was carefully optimized so that the minimum amount of logic was required across the entire bus system. Asynchronous signaling was used but all responsibility for de-skewing of addresses and data was the responsibility of the current bus master, minimizing the complexity of the bus slave devices. The responsibility for timing-out failed bus cycles also was placed in the master devices. Similarly, the complexities of handling interrupt transactions were concentrated into the single Interrupt-Fielding Processor (the PDP-11 or VAX-11 computer) in the system.
Compatibility
The design of the Q-bus was very closely related to the design of the Unibus both in spirit and in detailed implementation. Adapters were available from Digital and from third parties that allowed Q-bus devices to be connected to Unibus-based computers and vice versa. A number of I/O devices were available in either Unibus or Q-bus flavors; some of these devices had minor differences while many others were essentially identical.
Soviet clones
In Soviet systems (see 1801 series CPU), the Q-Bus architecture was called МПИ (Магистральный Параллельный Интерфейс, or parallel bus interface). Its main difference was that it supported up to four processors on the same bus. Otherwise it was completely binary and electrically compatible with the standard Q-Bus, except for the physical layout of connectors.
Cycle Types
The Q-Bus supports 6 basic transaction types
DATI Data in - master read - note no DATIB (not required) DATO Data out - master write DATOB Data out (byte) DATIO Data in/out DATIOB Data in/out (byte) IAK Interrupt Acknowledge
Interfaces
A wide range of interface cards were available for the Q-Bus[2]
Part Number | Part Name | Form factor | Function |
---|---|---|---|
A012 | ADV11-A | 16-channel 12-bit A/D | |
A020 | 16-channel A/D, relay switched | ||
A026 | AXV11-C | 16-channel 12-bit A/D plus 2-channel 12-bit D/A | |
A6001 | AAV11-A | 4-channel 12-bit D/A | |
A6006 | AAV11-C | Digital-to-analogue converter | |
A8000 | ADV11-C | 16-channel 12-bit A/D | |
G7272 | Grant continuity card | ||
H223 | MMV11-A | 4-Kword 16-bit stack & drive assembly | |
H9270 | 4x4 Q-bus backplane | ||
H9273-A | 9x4 Q-bus backplane in AB only | ||
H9276-A | 9x4 Q-bus backplane, Q-22 | ||
H9281-BA | Q | 4x2 Q-bus backplane | |
H9281-BB | Q | 8x2 Q-bus backplane | |
L4002 | VAX 4000-500 CPU card | ||
M3104 | DHV11-A | 8-line async DMA MUX | |
M3106 | DZQ11-M | 4-line double-buffered async EIA MUX, with | |
M3106-PA | DZQ11-M | 4-line double-buffered async MUX with S-box | |
M3107 | DHQ11-M | 8-line async MUX module, DMA, Q-22 | |
M3108-A | DSV11-A | 2-line sync SLU for BA23/123 (-AA is first unit, | |
M3108-P | DSV11-S | 2-line sync SLU for BA223 (-SF is first unit, -SG | |
M3121 | DFA01-AA | Dual integral modem, S-box, DF224 compatible | |
M3125 | BITBUS to Q-bus interface | ||
M3125-PA | Q-22 bus interface to Intel BITBUS | ||
M3125-YA | Q-22 bus interface to Intel BITBUS, no handle | ||
M3126 | DFA01-BA | Dual integral modem, Q-bus, S-box, UK version | |
M3127-PA | DESQA-SA/SF | Ethernet/thinwire S-box adaptor (DELQA+DESTA) | |
M3127-PB | DESQA-SA/SF | M3127-PA with handle access thinwire pushbutton | |
M3128 | QBIC | Q-bus interface to VMI CCIC | |
M3129 | KMV11 | NRZI/RS422 data converter for KMV11 | |
M4002 | KWV11-C | Programmable realtime clock | |
M5010 | 32-bit non-isolated dc input module | ||
M5011 | 16-bit non-isolated dc input module | ||
M5012 | 16-bit isolated dc input module | ||
M5012-YA | 16-bit isolated dc input module (TTL compatible) | ||
M5013 | 8-bit isolated ac input module | ||
M5014 | Dual input counter, 16-bit | ||
M5016 | Quad input counter/prescalar, 8-bit | ||
M5031 | 16-channel isolated dc interrupt module, 16-bit | ||
M5976-AA | Q-bus to SCSI adaptor for BA23/BA123 enclosures | ||
M5976-SA | Q-bus to SCSI adaptor for BA200/BA400 enclosures | ||
M5977-AA | SCSI to Q-bus controller (MSCP/TMSCP) for 11/83 | ||
M6010 | 32-bit non-isolated dc output module | ||
M6010-YA | 32-bit non-isolated dc output module (TTL | ||
M6011 | Non-isolated dc one-shot output module | ||
M6012 | 8-bit isolated dc output module | ||
M6013 | 8-bit isolated ac output module | ||
M6014 | Dual 16-bit output converter | ||
M6015 | 16-bit retentive dc output module | ||
M7061 | VSV11-F | Raster graphics sync generator & cursor control | |
M7062 | VSV11-MA | Raster graphics image memory | |
M7064 | VSV11 | Raster graphics image processor card | |
M7066 | VTV01 | Video Display Sys: UNIBUS to Q-bus converter | |
M7135 | KD32-AA | microVAX I datapath with G floating point | |
M7135-YA | KD32-AB | microVAX I datapath with D floating point | |
M7136 | KD32-AA/AB | microVAX I memory control | |
M7142 | VK170-CA | Serial video module, CRT control logic, | |
M7164 | KDA50-Q | Q-bus SDI disk adaptor, Q-22 (1 of 2) | |
M7165 | KDA50-Q | Q-bus SDI disk adaptor, Q-22 (2 of 2) | |
M7168 | VCB02 | 4-plane colour bitmap module | |
M7169 | VCB02 | 4-plane video controller module | |
M7193 | DRQ11-CA | DMA interface, 16-bit | |
M7195-FA | MXV11-BF | 128-Kbyte RAM, 2 async EIA SLU, I/O, clock, | |
M7196 | TSV05 | TSV05 controller for Q/Q22 bus | |
M7264 | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-AA | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-AB | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-BB | KD11-F | 11/03 processor with 4-Kword MOS RAM & DIBOL microm | |
M7264-CB | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-DB | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-EB | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-FB | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-HB | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-JB | KD11-F | 11/03 processor with 4-Kword MOS RAM | |
M7264-YA | KD11-H | 11/03 processor with 0-Kword RAM | |
M7264-YB | KD11-Q | 11/03 processor with 0-Kword RAM & DIBOL microm | |
M7264-YC | KD11-H | 11/03 processor with 0-Kword RAM | |
M7268 | RKV11 | RK11-D to Q-bus adaptor | |
M7269 | RKV11 | RK05 controller | |
M727 | KA11 | 11/20 State control module | |
M727-YA | M727 for KH11-A | ||
M7270 | KD11-HA | LSI-11/2 CPU, 16-bit | |
M7458-AA | MSV11-RA | 1-Mbyte PMI/Q22 parity memory with CSR | |
M7500 | KMV1A-S | Programmable comms controller, BA2xxx. | |
M7502 | Single-line high speed intelligent communication | ||
M7504 | DEQNA-AA | Q-bus (Q-22) to ethernet adaptor, obsolete for VMS 5.x and above (use DELQA) | |
M7506-AA | MSV11-MA | 512-Kbyte 18-bit RAM | |
M7506-AT | MSV11-MA | 512-kbyte 22-bit parity/CSR MOS RAM | |
M7506-BA | MSV11-MB | 1-Mbyte RAM | |
M7506-BC | MSV11-MB | 1-Mbyte RAM | |
M7506-BE | MSV11-MB | 1-Mbyte 22-bit parity/CSR MOS RAM | |
M7506-BF | MSV11-MB | 1-Mbyte RAM | |
M7506-BH | MSV11-MB | 1-Mbyte RAM | |
M7506-BP | MSV11-MB | 1-Mbyte RAM | |
M7506-BT | MSV11-MB | 1-Mbyte 22-bit parity/CSR MOS RAM | |
M7506-BU | MSV11-MB | 1-Mbyte 22-bit parity/CSR MOS RAM | |
M7506-BV | MSV11-MB | 1-Mbyte 22-bit parity/CSR MOS RAM | |
M7512 | RQDX1E | RQDX extender for RQDX1; must be the last item in the backplane, below the RQDX1 | |
M7513 | RQDXE | RQDX extender for RQDX2/3 (-AA for BA23, -FA for | |
M7516 | DELQA-M | Ethernet interface (replaces DEQNA) | |
M7516-PA | DELQA | Q-22 high-performance ethernet adaptor | |
M7546 | TQK50-AA | TMSCP controller for TK50 tape unit | |
M7551-AA | MSV11-QA | 1-Mbyte 22-bit parity/CSR MOS RAM | |
M7551-BA | MSV11-QB | 2-Mbyte 22-bit parity/CSR MOS RAM | |
M7551-CA | MSV11-QC | 4-Mbyte 22-bit parity/CSR MOS RAM | |
M7554 | KDJ11-DA | J11 CPU 15 MHz, 512-Kbyte RAM, 2 SLUs, LTC | |
M7554-01 | KDJ11-DA | J11 CPU 15 MHz, 512-Kbyte RAM, 2 SLUs, LTC (VE) | |
M7554-02 | KDJ11-DB | 11/53-PLUS CPU | |
M7554-04 | KDJ11-DD | J11 CPU 18 MHz, 1.5-Mbyte RAM, 2 SLUs (CSS) | |
M7554-PA | KDJ11-SA | J11 CPU 15 MHz, 512-Kbyte RAM, 2 SLUs, S-box handle | |
M7554-PB | KDJ11-SB | J11 CPU 18 MHz, 512-Kbyte RAM, 2 SLUs, LAT PROM, | |
M7554-PC | CMR53-AA | J11 CPU 18 MHz, 512-Kbyte RAM, 2 SLUs, S-box handle, | |
M7554-SA | KDJ11-SA | J11 CPU 15 MHz, 512-Kbyte RAM, 2 SLUs, S-box handle | |
M7554-SC | KDJ11-SC | J11 CPU 15 MHz, 512-Kbyte RAM, 2 SLUs, S-box handle | |
M7554-SD | KDJ11-SD | J11 CPU 18 MHz, 1.5-Mbyte RAM, LAT ROM, S-box handle | |
M7554-SE | KDJ11-SE | J11 CPU 18 MHz, 1.5-Mbyte RAM, 2 SLUs, LTC, S-box | |
M7554-YA | KDJ11-SA | J11 CPU 15 MHz, 512-Kbyte RAM, 2 SLUs, LTC, | |
M7554-YB | KDJ11-SB | J11 CPU 15 MHz, 512-Kbyte RAM, 2 SLUs, LAT PROMs, | |
M7555 | RQDX3 | Winchester and floppy disk controller | |
M7555-YA | RQDX3-SD | Controller for RX33D 48TPI floppy disk drive | |
M7558 | 2-Mbyte 22-bit MOS memory | ||
M7558-AA | MSV11-SA | 2-Mbyte 22-bit parity/CSR MOS RAM | |
M7559 | TQK70 | TMSCP controller for TK70 | |
M7573 | RQDX4 | Controller for RX35, RD50/1/2/3/4 | |
M7602 | QVSS | Q-bus Video Sub System module for Q22 systems | |
M7602-YA | QVSS | Q-bus Video Sub System module, bitmap graphics | |
M7605 | TQK25 | 0.25" streaming tape drive controller (TK25) | |
M7606-AA | KA630-AA | microVAX II with 1-Mbyte, floating point, time of year clock, boot/diagnostic ROM (Q22-bus) | |
M7607-AA | MS630-AA | 1-Mbyte RAM for microVAX II (Q-22 via CD) | |
M7608-AA | MS630-BA | 2-Mbyte RAM for microVAX II (Q-22 via CD) | |
M7608-BA | MS630-BB | 4-Mbyte RAM for microVAX II (Q22-bus) | |
M7609-AA | MS630-CA | 8-Mbyte parity 36-bit RAM for microVAX II (Also M7609-AC, -AF, -AH, -AP, -AV) (Q-22 via CD) | |
M7616 | J11 CPU, 512-Kbyte RAM, 64-Kbyte PROM (Q22 peripheral processor) | ||
M7620 | KA650-AA/BA | microVAX III CPU (-AA full license, -BA | |
M7621 | MS650-AA | 8MB RAM for KA650 | |
M7622 | MS650-BA | 16MB RAM for KA650 | |
M7625 | KA655-BA | microVAX III CPU (workstation license), 60nS | |
M7626 | KA660 | VAX 4000 CPU, 57 MHz Q-22 DSSI ethernet | |
M7635-AA | KN210 | RISC 3000 CPU, Q-bus interface | |
M7635-AB | KN210 | M7635-AA with LSI R3000, R3020 chips | |
M7635-AC | KN210 | M7635-AA with PERF R3000, R3020 chips | |
M7651 | DRV11-WA | 18/22-bit DMA general purpose parallel interface | |
M7651-YB | DRV11-WA | M7651, revision C ciruit | |
M7656 | VSV21-AA | Colour graphics module: M68K processor, HD63486 | |
M7676 | KXT11-AB | Single-board 16-bit dual-height CPU. | |
M7679 | ISDN | ISDN basic rate access Q-bus board | |
M7740 | RQC25 | Q22-bus to LESI bus adaptor used on disks with Also M7740-01, -PA) (Also called KLESI-QA) | |
M7940-YA | DLV11 | M7940 with extra wires to bring out clock & | |
M7940-YC | DLV11 | Modified M7940 for use in a tester, TTL in/out | |
M7940-YD | DLV11 | Modified M7940 for use in a tester, switchable | |
M7940-YE | DLV11 | Modified M7940 for use in a tester, XON/XOFF | |
M7941 | DRV11 | 16-bit parallel line unit | |
M7942 | MRV11-AA | Space for 4K 16-bit PROM | |
M7942-YA | MRV11-VA | VT71T bootstrap | |
M7942-YB | MRV11-AA | M7942 with VT52 emulator, VT71 bootstrap | |
M7942-YC | MRV11-VC | VT72 bootstrap/diagnostic module | |
M7942-YD | MRV11-AA | M7942 with CSR11 bootstrap | |
M7944 | MSV11-B | 4-Kword 16-bit MOS RAM (external refresh) | |
M7946 | RXV11 | RX01 floppy disk controller | |
M7948 | DRV11-P | LSI-11 bus foundation module. Basic Q-bus | |
M7949 | LAV11 | LA180 line printer control module | |
M7950 | DRV11-B | 16-bit DMA parallel general purpose interface | |
M7951 | DUV11-DA | Sync interface, character protocol; DU11-DA compat. | |
M7952 | KWV11-A | Programmable realtime clock | |
M7953 | MNCKW | MINC programmable real time clock | |
M7954 | IBV11 | IEC general purpose interface (GPIB) | |
M7955-AD | MSV11-CD | 16-Kword 16-bit MOS RAM with on-board refresh | |
M7957 | DZV11 | 4-line double-buffered async EIA MUX | |
M8006-PA | 72-bit opto-isolated output module | ||
M8007-PA | 72-bit opto-isolated input module | ||
M8012 | BDV11 | Bootstrap, power on self test, load program from Eproms and terminator card | |
M8013 | RLV11 | RL01 disk controller, 1 of 2 | |
M8014 | RLV11 | RL01 bus controller, 2 of 2 | |
M8016 | KPV11-A | Power fail, realtime clock, no termination | |
M8016-YB | KPV11-B | M8016 with 120-ohm termination | |
M8016-YC | KPV11-C | M8016 with 250-ohm termination | |
M8017-AA | DLV11-E/EC | Single-line async control module | |
M8017-PA | DLV11-E/EC | Single-line async control module, S-box handle | |
M8018 | KUV11-AA | Writable control store module | |
M8020 | DPV11-M | Single-line serial EIA sync interface | |
M8020-PA | DPV11-SA | Single-line serial sync interface, S-box handle | |
M8021 | MRV11-BA | 256-word RAM, space for 4-Kword UV PROM | |
M8027 | LPV11 | Printer interface module | |
M8028 | DLV11-F | Async interface EIA/20ma, error flags, break bit | |
M8029 | RXV21 | RX02 floppy disk drive control module | |
M8043 | DLV11-J | 4-SLU peripheral interface | |
M8044-AA | MSV11-DA | 4-Kword 16-bit MOS RAM (Also M8044-AB, -AC, -AD) | |
M8044-BA | MSV11-DB | 8-Kword 16-bit MOS RAM (Also M8044-BB, -BC, -BD) | |
M8044-CA | MSV11-DC | 16-Kword 16-bit MOS RAM | |
M8044-DA | MSV11-DD | 32-Kword 16-bit MOS RAM | |
M8045-AB | MSV11-EA | 4-Kword 18-bit MOS RAM | |
M8045-CH | MSV11-EC | 16-Kword 18-bit MOS RAM (Also M8045-CJ, -CK, -CL) | |
M8045-DA | MSV11-ED | 32-Kword 18-bit MOS RAM | |
M8047-AA | MXV11-AA | 4-Kword RAM, 2 async EIA SLU, sockets for 2 | |
M8047-CA | MXV11-AC | 16-Kword RAM, 2 async EIA SLU, sockets for 2 | |
M8047-HA | MXV11-HA | 16-Kword RAM, 2 async EIA SLU (8 bits + parity), | |
M8048 | MRV11-C | Universal PROM/ROM module with sockets for 16 | |
M8049 | DRV11-J | Hi-density parallel line unit (4 lines) | |
M8049-AA | DRV1J-SA/SF | Modification of DRV11-J to DRV1J-SA/-SF | |
M8049-PA | DRV11-J | M8049 with S-box handle | |
M8053 | DMV11 | Microprogrammed controller V.35, RS232/423, with | |
M8053-AA | DMV11 | Microprogrammed controller (needs one of M5930- | |
M8053-MA | DMV11-A | M8053 with DDCMP control ROM (point-to-point or | |
M8053-PA | DMV11 | M8053 with S-box handle | |
M8059-FA | MSV11-LF | 64-Kword MOS RAM, single voltage | |
M8059-KA | MSV11-LK | 128-Kword MOS RAM, single voltage | |
M8061 | RLV12 | RL01/RL02 disk control, 22-bit address | |
M8063-AA | KXT11-AA | FALCON (SBC-11/21) single-board CPU with 2 SLU, 1 parallel line unit, line frequency clock, | |
M8063-BA | KXT11-BA | FALCON (SBC-11/21) single-board CPU with 2 SLU, 1 parallel line unit, line frequency clock, | |
M8064 | DMV11 | Microprogrammed controller, integral modem, space | |
M8064-MA | DMV11 | M8064 with DDCMP point-to-point or multidrop, | |
M8067-FA | MSV11-PF | 128-Kbyte MOS memory with parity CSR | |
M8067-KA | MSV11-PK | 256-kbyte MOS memory with parity CSR | |
M8067-LA | MSV11-PL | 512-Kbyte MOS memory with parity CSR | |
M8185-YC | KDF11-AC | 11/23 CPU without options | |
M8186-YA | KDF11-AA | 11/23 CPU with KTF11-AA (MMU) and sockets for | |
M8186-YB | KDF11-AB | 11/23 CPU with KTF11-AA (MMU) AND KEF11-AA (FP11) | |
M8186-YC | KDF11-AC | 11/23 CPU without options | |
M8188 | FPF11 | Floating point processor | |
M8189 | KDF11-BA | 11/23-PLUS single-board CPU | |
M8190-AB | KDJ11-BB | J11 CPU 15 MHz with 2 boot & diagnostic ROMs, FPJ11 | |
M8190-AC | KDJ11-BD | J11 CPU 15 MHz with 2 boot & diagnostic ROMs, | |
M8190-AD | KDJ11-BA | J11 CPU 18 MHz with 2 boot & diagnostic ROMs, FPJ11 | |
M8190-AE | KDJ11-BF | Q/U 11/83-84 CPU J11 CPU 18 MHz with 2 boot & diagnostic | |
M8192 | KDJ11-A | LSI-11/73 CPU | |
M8192-YB | KDJ11-AB | LSI-11/73 CPU 8-Kbyte cache, FPJ11-AA compatible, | |
M8192-YC | KDJ11-AC | LSI-11/73 CPU 8-Kbyte cache with FPJ11-AA, no | |
M8194 | KDF11 | Data memory module | |
M8195 | KDF11 | Cache data path module | |
M8217 | DW11-A | UNIBUS to Q-bus interface module | |
M8377 | KXT11-CA | T11 16-bit single-board computer. Q-bus with a host processor | |
M8392-AA | 68020, 1-Mbyte, 2 x 8-channel UARTs | ||
M8392-BA | 68020, 1-Mbyte, 2 x 8-channel UARTs, S-box handle | ||
M8578 | MRV11-D | PROM/ROM module with 16 sockets; 24/28-pin devices Requires MXV11-B2 bootstrap ROM for bootstrapping | |
M8631-AA | MCV11-DA | 4-Kword 16-bit 2Kx8 static CMOS RAM with 96-hour battery backup (Also M8631-AF, -AL) (Q22-bus) | |
M8631-CA | MCV11-DC | 16-Kword 16-bit 2kx8 static CMOS RAM with 96-hour battery backup (Also M8631-CF, -CL) (Q22-bus) | |
M8634 | IEQ11-A | DMA version of IEEE(GPIB) interface | |
M8637-BA | MSV11-JB | 1-Mbyte ECC PMI RAM with CSR (Q22-bus) | |
M8637-CA | MSV11-JC | 2-Mbyte ECC PMI RAM with CSR (Q22-bus) | |
M8637-DA | MSV11-JD | 1-Mbyte ECC RAM | |
M8637-EA | MSV11-JE | 2-Mbyte ECC RAM | |
M8638 | HDLC DMA single channel sync MUX controller | ||
M8639-YA | RQDX1 | RD51/52 & RX50 control module | |
M8639-YB | RQDX2 | RD51/52 & RX50 control module, can be expanded | |
M8981-AA | KDJ11-EA | Q/U 11/93-94 CPU 18 MHz, DCJ11, FPJ11, 2-Mbyte parity | |
M8981-BA | KDJ11-EB | Q/U 11/93-94 CPU 18 MHz, DCJ11, FPJ11, 4-Mbyte parity | |
M9037 | Grant continuity | ||
M9047 | Grant continuity (also M9047-SA, -SF) | ||
M9058 | Distribution/adaptor/buffer board for RQDX1/2/3 | ||
M9400-YA | REV11-A | 120-ohm terminators with refresh & floppy boot | |
M9400-YB | TEV11 | 120-ohm terminators | |
M9400-YC | REV11-C | Refresh and boot alone | |
M9400-YD | REV11-D | Headers alone | |
M9400-YE | REV11-E | Headers and 250-ohm terminators can be used with M9401 as a Q-bus extender | |
M9400-YF | REV11-F | M9400-YA with boot sockets with no ROMs | |
M9400-YH | REV11-H | LDP/COMM boot & floppy boot with terminators | |
M9400-YJ | REV11-J | DMA refresh bootstrap, cable connector, 250-ohm | |
M9400-YK | REV11-K | M9400-YH with no terminators | |
M9400-YL | REV11-L | M9400-YH with cable connectors | |
M9400-YM | REV11-M | Refresh with DECnet bootstrap | |
M9400-YN | REV11-N | RX02 boot and refresh | |
M9401 | Mirror-image connector used at other end of cable | ||
M9404 | 1st Q22-bus cable connector, no terminators | ||
M9404-YA | Cable connector for expansion box, with 240-Ohm | ||
M9405 | 2nd Q22-bus cable connector, no terminators, mirror | ||
M9405-YA | M9405 with 120-Ohm terminators |
External links
- HP OpenVMS :: Q-Bus Hardware, HoffmanLabs
- DIY, The Lab - Q-Bus Beispielplatine, Selbstgebaute Q-BUS Platinen
- DEC STD 160: LSI-11 Bus Specification
- PDP-11 Bus Handbook UNIBUS and LSI-11 Bus
References
- ↑ Schmidt, Atlant G.,Unibus,Q-Bus and VAXBI Bus, in Digital bus handbook, Di Giacomo Joseph Ed., McGraw Hill, 1990 ISBN 0070169233
- ↑ Microcomputer Products Handbook., Digital Equipment Corporation, 1985
|