RGT Technology, LLC . . .
| Part Number | Manufacturer | Description | Brand | Price & Lead Time |
|---|---|---|---|---|
| VME-PMC-CADDY-32P2 | ESD | ESD VME-PMC-CADDY-32P2 I/O Controller - VMEbus base board for two 32P2 single PMC modules, P2-pin assignment acc. to IEEE P1386/ Draft 2.0, Table 6-3 (interconnection between 16 pins of the PMC-modules), extended temperature range on request Simple Type: I/O Controller The VMEbus unit PMC-CADDY is a VME64 base unit that can carry up to two PMC modules of normal size or one module of double size. For the VMEbus connection, the VME-PCI Bridge UNIVERSE CA91C142 by Tundra With an internal clock rate of 33 MHz is used. The CA91C142 interface can operate either as either slave or as Master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. The PMC-CADDY operates with a data width of up to 32 bits and with 32 address signals on the VMEbus. You can apply the VMEbus interrupt to any of the seven interrupt-request lines. The board connects to the VMEbus by two 160-pin VG-connectors according to IEC603-xx on VME64 extensions. A red LED shows an active VMEbus-interrupt request in the front panel and a yellow LED shows a VMEbus access onto the board. Draft standard IEEE P1386/Draft 2.0 is the standard used for both PMC plug-in units' design except for the standard I/O pin routing. This design makes it possible to insert any PMC modules on the market. In addition to the connectors for the PMC address/ data and control signals, every plug-in unit of the PMC-CADDY has an I/O-connector that applies the I/O signals of the PMC modules to VMEbus connector P2. Two different P2 pin assignments are available: In the standard configuration, each P2-pin connects to one I/O-pin of the PMC modules (acc. to PMC-Update of FORCE ™, Table 1, Author: Wayne Fischer, Director of Strategic Programs CMC/PMC Working Groups Chair, 22.10.96). In the option -32P, the pin assignment is acc. to IEEE P1386/Draft 2.0, Table 6-3. This pin assignment offers to connect the two PMC-modules via P2, because several PMC-I/O-signals short at P2. Download the datasheet (PDF) | Request Quote | |
| VME-PMC-CADDY-3.3P1 | ESD | ESD VME-PMC-CADDY-3.3P1 I/O Controller - 3.3V power supply directly connected to VMEbus 3.3V, not generated from 5V supply, extended temperature range on request Simple Type: I/O Controller The VMEbus unit PMC-CADDY is a VME64 base unit that can carry up to two PMC modules of normal size or one module of double size. For the VMEbus connection, the VME-PCI Bridge UNIVERSE CA91C142 by Tundra With an internal clock rate of 33 MHz is used. The CA91C142 interface can operate either as either slave or as Master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. The PMC-CADDY operates with a data width of up to 32 bits and with 32 address signals on the VMEbus. You can apply the VMEbus interrupt to any of the seven interrupt-request lines. The board connects to the VMEbus by two 160-pin VG-connectors according to IEC603-xx on VME64 extensions. A red LED shows an active VMEbus-interrupt request in the front panel and a yellow LED shows a VMEbus access onto the board. Draft standard IEEE P1386/Draft 2.0 is the standard used for both PMC plug-in units' design except for the standard I/O pin routing. This design makes it possible to insert any PMC modules on the market. In addition to the connectors for the PMC address/ data and control signals, every plug-in unit of the PMC-CADDY has an I/O-connector that applies the I/O signals of the PMC modules to VMEbus connector P2. Two different P2 pin assignments are available: In the standard configuration, each P2-pin connects to one I/O-pin of the PMC modules (acc. to PMC-Update of FORCE ™, Table 1, Author: Wayne Fischer, Director of Strategic Programs CMC/PMC Working Groups Chair, 22.10.96). In the option -32P, the pin assignment is acc. to IEEE P1386/Draft 2.0, Table 6-3. This pin assignment offers to connect the two PMC-modules via P2, because several PMC-I/O-signals short at P2. Download the datasheet (PDF) | Request Quote | |
| VME-PMC-CADDY-T | ESD | ESD VME-PMC-CADDY-T I/O Controller - VMEbus base board for two single PMC modules, P2-pin assignment acc. to PMC-Update from 22.10.96 (no interconnection between PMC-modules) extended temperature range: -40...+75 Simple Type: I/O Controller The VMEbus unit PMC-CADDY is a VME64 base unit that can carry up to two PMC modules of normal size or one module of double size. For the VMEbus connection, the VME-PCI Bridge UNIVERSE CA91C142 by Tundra With an internal clock rate of 33 MHz is used. The CA91C142 interface can operate either as either slave or as Master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. The PMC-CADDY operates with a data width of up to 32 bits and with 32 address signals on the VMEbus. You can apply the VMEbus interrupt to any of the seven interrupt-request lines. The board connects to the VMEbus by two 160-pin VG-connectors according to IEC603-xx on VME64 extensions. A red LED shows an active VMEbus-interrupt request in the front panel and a yellow LED shows a VMEbus access onto the board. Draft standard IEEE P1386/Draft 2.0 is the standard used for both PMC plug-in units' design except for the standard I/O pin routing. This design makes it possible to insert any PMC modules on the market. In addition to the connectors for the PMC address/ data and control signals, every plug-in unit of the PMC-CADDY has an I/O-connector that applies the I/O signals of the PMC modules to VMEbus connector P2. Two different P2 pin assignments are available: In the standard configuration, each P2-pin connects to one I/O-pin of the PMC modules (acc. to PMC-Update of FORCE ™, Table 1, Author: Wayne Fischer, Director of Strategic Programs CMC/PMC Working Groups Chair, 22.10.96). In the option -32P, the pin assignment is acc. to IEEE P1386/Draft 2.0, Table 6-3. This pin assignment offers to connect the two PMC-modules via P2, because several PMC-I/O-signals short at P2. Download the datasheet (PDF) | Request Quote | |
| VME-PMC-CPU2 | ESD | ESD VME-PMC-CPU/2 I/O Controller - VMEbus base board for two single PMC modules, P2-pin assignment acc. to VITA 35 (P4V2-64ac, P4V0-64), (no interconnection between PMC modules) Simple Type: I/O Controller The Tsi148 allows the board to operate either as slave or as master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. Any of the seven-interrupt request lines accepts application of the VMEbus interrupt, and the board connects to the VMEbus by two 160-pin VG-connectors (complementary to DIN41612) for VME64 systems. LEDs in the front panel indicate an active VMEbus-interrupt request and a VMEbus access onto the board. A high efficient PowerPC MPC8349 powers the board at 533 or 667 MHz with the advantage of frugal power consumption. The fast floating-point unit of type 603 allows complex algorithms at formidable speed. The memory enables ECC with a capacity of 512 Mbyte or optional 1 Gbyte DDR2-typed RAM. The flash memory of 2 Gbyte allows even complex and ambitious operating systems as well as user's application. The on-board FPGA controls the set-up of the board resources, including the complex Tsi148 VME interface and the PMC slots, but is mighty enough to enable a programming API for the programmers usage. The board also includes 2 Gbit Ethernet ports, 2 USB 2.0 Hi-Speed ports and 2 RS-232 serial ports with access through the front panel. Various LEDs signal state of operation - also usable at programmers demand. Download the datasheet (PDF) | Request Quote | |
| VME-PMC-CPU2-32P | ESD | ESD VME-PMC-CPU/2-32P I/O Controller - VMEbus base board for two 32P2 single PMC modules, P2-pin assignment acc. to IEEE Std 1386-2001, Table 8 (interconnection between 16 pins of the PMC-modules) Simple Type: I/O Controller The Tsi148 allows the board to operate either as slave or as master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. Any of the seven-interrupt request lines accepts application of the VMEbus interrupt, and the board connects to the VMEbus by two 160-pin VG-connectors (complementary to DIN41612) for VME64 systems. LEDs in the front panel indicate an active VMEbus-interrupt request and a VMEbus access onto the board. A high efficient PowerPC MPC8349 powers the board at 533 or 667 MHz with the advantage of frugal power consumption. The fast floating-point unit of type 603 allows complex algorithms at formidable speed. The memory enables ECC with a capacity of 512 Mbyte or optional 1 Gbyte DDR2-typed RAM. The flash memory of 2 Gbyte allows even complex and ambitious operating systems as well as user's application. The on-board FPGA controls the set-up of the board resources, including the complex Tsi148 VME interface and the PMC slots, but is mighty enough to enable a programming API for the programmers usage. The board also includes 2 Gbit Ethernet ports, 2 USB 2.0 Hi-Speed ports and 2 RS-232 serial ports with access through the front panel. Various LEDs signal state of operation - also usable at programmers demand. Download the datasheet (PDF) | Request Quote | |
| VME-PMC-CPU2-CC | ESD | ESD VME-PMC-CPU/2-CC I/O Controller - VMEbus base board for two single PMC modules, P2-pin assignment acc. to VITA 35 (P4V2-64ac, P4V0-64), (no interconnection between PMC modules). Conduction Cooled, extended temperature range: -40...+85ºC. Simple Type: I/O Controller The VMEbus unit VME-PMC-CPU/2 is a VME64-base board that can carry up to two PMC modules of normal size. For the VMEbus connection, the VME-PCI bridge Tsi148 by Tundra is used. The Tsi148 allows the board to operate either as slave or as master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. Any of the seven-interrupt request lines accepts application of the VMEbus interrupt, and the board connects to the VMEbus by two 160-pin VG-connectors (complementary to DIN41612) for VME64 systems. LEDs in the front panel indicate an active VMEbus-interrupt request and a VMEbus access onto the board. A high efficient PowerPC MPC8349 powers the board at 533 or 667 MHz with the advantage of frugal power consumption. The fast floating-point unit of type 603 allows complex algorithms at formidable speed. The memory enables ECC with a capacity of 512 Mbyte or optional 1 Gbyte DDR2-typed RAM. The flash memory of 2 Gbyte allows even complex and ambitious operating systems as well as user's application. The on-board FPGA controls the set-up of the board resources, including the complex Tsi148 VME interface and the PMC slots, but is mighty enough to enable a programming API for the programmers usage. The board also includes 1 Gbit Ethernet port and 2 RS-232 serial ports with access through PO rear I/O pins. Designed according to the IEEE STD 1386-2001 standard (except the standard I/O pin routing), both PMC slots allow insertion of all PMC modules, that use 3.3 V signaling only. In addition to the connectors for the PMC address/ data and control signals, every slot of the VME-PMC-CPU/2-CC has an I/O connector that applies the I/O-signals of the PMC modules to VMEbus connector P2. Two different P2 pin assignments are available: In the standard configuration, each P2-pin connects to one I/O pin of the PMC-modules acc. to VITA 35 (P4V2-64ac, P4V0-64). In the option ‘-32P’, the pin assignment is acc. to IEEE Std 1386-2001, Table 8. This pin assignment offers the connection of the two PMC-modules via P2, because several PMC-I/O-signals are shorted at P2. Download the datasheet (PDF) | Request Quote | |
| VME-PMC-CPU2-CC-32P2 | ESD | ESD VME-PMC-CPU/2-CC-32P2 I/O Controller - VMEbus base board for two 32P2 single PMC modules, P2-pin assignment acc. to IEEE Std 1386-2001, Table 8 (interconnection between 16 pins of the PMC-modules). Conduction Cooled, extended temperature range: -40...+85ºC. Simple Type: I/O Controller The VMEbus unit VME-PMC-CPU/2 is a VME64-base board that can carry up to two PMC modules of normal size. For the VMEbus connection, the VME-PCI bridge Tsi148 by Tundra is used. The Tsi148 allows the board to operate either as slave or as master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. Any of the seven-interrupt request lines accepts application of the VMEbus interrupt, and the board connects to the VMEbus by two 160-pin VG-connectors (complementary to DIN41612) for VME64 systems. LEDs in the front panel indicate an active VMEbus-interrupt request and a VMEbus access onto the board. A high efficient PowerPC MPC8349 powers the board at 533 or 667 MHz with the advantage of frugal power consumption. The fast floating-point unit of type 603 allows complex algorithms at formidable speed. The memory enables ECC with a capacity of 512 Mbyte or optional 1 Gbyte DDR2-typed RAM. The flash memory of 2 Gbyte allows even complex and ambitious operating systems as well as user's application. The on-board FPGA controls the set-up of the board resources, including the complex Tsi148 VME interface and the PMC slots, but is mighty enough to enable a programming API for the programmers usage. The board also includes 1 Gbit Ethernet port and 2 RS-232 serial ports with access through PO rear I/O pins. Designed according to the IEEE STD 1386-2001 standard (except the standard I/O pin routing), both PMC slots allow insertion of all PMC modules, that use 3.3 V signaling only. In addition to the connectors for the PMC address/ data and control signals, every slot of the VME-PMC-CPU/2-CC has an I/O connector that applies the I/O-signals of the PMC modules to VMEbus connector P2. Two different P2 pin assignments are available: In the standard configuration, each P2-pin connects to one I/O pin of the PMC-modules acc. to VITA 35 (P4V2-64ac, P4V0-64). In the option ‘-32P’, the pin assignment is acc. to IEEE Std 1386-2001, Table 8. This pin assignment offers the connection of the two PMC-modules via P2, because several PMC-I/O-signals are shorted at P2. Download the datasheet (PDF) | Request Quote | |
| VME-PMC-CPU2-T | ESD | ESD VME-PMC-CPU/2-T I/O Controller - Master or slave functionality, 2eVME and 2eSST fast protocol, Slots according to IEEE Std 1386-2001 specified Simple Type: I/O Controller The Tsi148 allows the board to operate either as slave or as master on the VMEbus. If the board operates as master, it supports a 4-level arbiter. Any of the seven-interrupt request lines accepts application of the VMEbus interrupt, and the board connects to the VMEbus by two 160-pin VG-connectors (complementary to DIN41612) for VME64 systems. LEDs in the front panel indicate an active VMEbus-interrupt request and a VMEbus access onto the board. A high efficient PowerPC MPC8349 powers the board at 533 or 667 MHz with the advantage of frugal power consumption. The fast floating-point unit of type 603 allows complex algorithms at formidable speed. The memory enables ECC with a capacity of 512 Mbyte or optional 1 Gbyte DDR2-typed RAM. The flash memory of 2 Gbyte allows even complex and ambitious operating systems as well as user's application. The on-board FPGA controls the set-up of the board resources, including the complex Tsi148 VME interface and the PMC slots, but is mighty enough to enable a programming API for the programmers usage. The board also includes 2 Gbit Ethernet ports, 2 USB 2.0 Hi-Speed ports and 2 RS-232 serial ports with access through the front panel. Various LEDs signal state of operation - also usable at programmers demand. Download the datasheet (PDF) | Request Quote |