Section 2_52-103 4/6/04 4:35 PM Page 23 PS4400 Modular Series Backplanes ■ For 6U CompactPCI Boards With H.110 For Pallet Bridge H.110 Bus: Mechanical: On all PS4400 backplanes, the H.110 The backplanes are 8-layer PCBs bus is available on J4. J5 has contacts which are 6.5U tall (for use with that extend through the backplane to 6U boards), 0.125" thick (see the interface with a rear board. None of configuration table for widths). Two the pins of J5 are connected on the layers have been dedicated as ground backplane except for the pins in row layers. The backplanes are attached “F” which are grounded. to the subrack using a series of screws along the top and bottom edges of the backplanes. H.110 Bridging: Approximately every other mounting The PS1150 H.110 bridge module is hole along the top and bottom is used to extend the H.110 bus beyond connected to digital ground. These the 8 slots available on any one holes provide a return to the subrack backplane. Multiple PS1150 bridges from the digital PCI ground planes. may be used to create systems of any They are identified by a ground slot count up to a maximum of 21, as symbol on the rear of the backplane. specified by the H.110 standard. In situations when connecting digital PS4402B PS4422B PS4432 PS4440 PS4450B ground to the subrack is not desired, the grounded mounting screws can be left uninstalled. On all backplanes, the mounting holes in the four corners of PS4400 Series Overview: Features: the board are not not grounded, so General Description: ■ Any slot count is achieved by these screws may always be installed. connecting backplanes with bridge The PS4400 series of 6.5U (for use with modules (PS1130, PS1150) 6U boards) 64/32-bit backplane com- CompactPCI Bridging: ponents allows the construction (up to ■ 2 to 8, 6U single wide (4HP) The PS1130 CompactPCI bridge 21 slots) of CompactPCI CompactPCI slots module is used to extend the systems with H.110 compatible slots. ■ +5 V, 33 PCI MHz bus interface CompactPCI bus beyond the 8 slots Each backplane module contains 2 to ■ 32-bit or 64-bit busses available available on any one backplane. 8 slots, and can operate in stand-alone Multiple PS1130 bridges may be used ■ H.110 bus available on J4 of mode with a host CPU board and to create systems of any slot count up all slots power supply. Multiple backplanes can to a maximum of 21, as specified by be linked together using rear-mounting ■ PICMG 2.0 R2.1 CompactPCI and the PICMG specification. Where low CompactPCI bridge modules (PS1130) pre-2.1 compatible profile bridging is required (due to rear and H.110 bridge modules (PS1150). ■ User-definable geographic address transition boards), the PS4400B series When CompactPCI bridges are used, for each physical slot backplanes should be used. only the rightmost backplane operates ■ PICMG 2.1 R1.0 CompactPCI Hot with a host CPU board in the system Swap Specification compliant slot. A bridge module drives the bus of the adjacent backplane, which does ■ ATX-compliant power connectors not contain a host CPU module. The rightmost slot becomes available for Rear Board I/O: a standard CompactPCI peripheral Additional connectors have been board. That backplane can, in turn, loaded for some members of the drive a third backplane via a second PS4400 series to provide rear I/O capa- bridge module and so on. The H.110 bility. On the PS44X0 backplanes, J3 bridge module performs the same has contacts that extend through the function for the H.110 bus segment. backplane for user I/O. J3 is not routed, Power is supplied to the system except for the pins in rows “Z” and “F” through ATX-compliant connectors. which are grounded. CompactPCI power supplies mounted in Kaparel/Rittal’s PS1240/50/60 modular power series backplanes, or ATX power supplies may be used. Order Model Physical cPCI H.110 PCI ATX pwr. User cPCI H.110 No. No. width slots slots bus conn. I/O slot exp. slot exp. 3686877 PS4400 32HP 8 8 64-bit 3 Yes S SBME 9805404 PS4402 32HP 8 7 64-bit 3 Yes S SB 3688406 PS4408 32HP 8 7 64-bit 3 Yes S SB 3687873 PS4420 28HP 7 7 64-bit 2 Yes SBE SBME 3688504 PS4422 28HP 7 6 64-bit 2 Yes SB SB 3687874 PS4430 24HP 6 6 64-bit 2 Yes SBME SBME 3688505 PS4432 24HP 6 6 64-bit 2 Yes SBE SB 3687875 PS4440 20HP 5 5 64-bit 2 Yes SBE SBME 3688507 PS4450 16HP 4 4 64-bit 1 Yes SBE SBME 3688407 PS4460 12HP 3 3 64-bit 1 Yes SE SE Legend: S=Stand alone; B=Beginning segment; M=Middle segment; E=Ending segment;1 HP=0.200" [4HP = 1 single slot width] 74 Section 2_52-103 4/6/04 4:35 PM Page 24 PS4400B Modular Series Backplanes ■ For 6U Boards With H1.110 For Low Profile Bridge ■ PS4400 Series Overview: General Description: The PS4400B series of 7U (for use with 6U boards) 64/32-bit backplanes are physically quite similar to the PS4400 series, with the exception of fine-pitch bridge connectors on the rear side to enable low profile, CompactPCI and H.110 bridging. The PS4400B series therefore allows the construction (up to 21 slots) of CompactPCI systems with H.110 compatible slots. Each backplane module contains between 2 and 8 slots, and can operate in stand-alone mode with a host CPU board and power supply. Multiple backplanes can be linked together using rear-mounting, low profile, CompactPCI bridge modules (PS1132 and PS1133) and H.110 bridge modules (PS1150). When CompactPCI bridges are used, only the rightmost backplane operates with a host CPU board in the system slot. A bridge module drives the bus of the adjacent backplane, which does not contain a host CPU module. The rightmost slot becomes available for a standard CompactPCI peripheral board. That backplane can, in turn, drive a third backplane via a second bridge module and so on. The H.110 bridge module performs the same function for the H.110 bus segment. Power is supplied to the system Order Model Physical cPCI H.110 PCI ATX pwr. User cPCI H.110 through ATX-compliant connectors. No. No. width slots slots bus conn. I/O slot exp. slot exp. CompactPCI power supplies mounted 9818080 PS4402B 32 HP 8 7 64-bit 3 P3 S SB in Kaparel/Rittal’s PS1240/50/60 3688406 PS4407B 32 HP 8 7 64-bit 3 P3 S SB modular power series backplanes, or 3688422 PS4420B 28 HP 7 7 64-bit 2 P3 SBE SBME ATX power supplies may be used. 3688423 PS4422B 28 HP 7 6 64-bit 2 P3 SBE SB Features: 3688924 PS4430B 24 HP 6 6 64-bit 2 P3 SBME SBME ■ Any slot count is achieved by 3688927 PS4432B 24 HP 6 5 64-bit 2 P3 SB SB connecting backplanes with low profile, CompactPCI and H.110 3688925 PS4440B 20 HP 5 5 64-bit 2 P3 SE SBME bridge modules (PS1132, PS1133 3688424 PS4442B 20 HP 5 4 64-bit 2 P3 S SB and PS1150) 3688425 PS4450B 16 HP 4 4 64-bit 1 P3 SE SBME ■ 2 to 8, 6U single wide (4HP) 3688426 PS4452B 16 HP 4 3 64-bit 1 P3 S SB CompactPCI slots 3688508 PS4460B 12 HP 3 3 64-bit 1 P3 SE SE ■ +5 V, 33 PCI MHz bus interface 3688427 PS4462B 12 HP 3 2 64-bit 1 P3 S S ■ 32-bit or 64-bit busses available Legend: S=Stand alone; B=Beginning segment; M=Middle segment; E=Ending segment;1 HP=0.200" ■ H.110 bus available on J4 of all [4HP = 1 single slot width] slots ■ PICMG 2.0 R2.1 CompactPCI and Rear pre-2.1 compatible Low Profile CompactPCI ■ User-definable geographic address Bridging: for each physical slot The PS1132 and PS1133 low profile ■ PICMG 2.1 R1.0 CompactPCI Hot CompactPCI bridge modules are used Swap Specification compliant to extend the CompactPCI bus beyond the 8 slots available on any one back- ■ ATX-compliant power connectors plane, without losing a single rear slot. Rear Board I/O: Multiple PS1132 and PS1133 bridges may be used to create systems of any Additional connectors have been slot count up to a maximum of 21, as loaded for some members of the specified by the PICMG specification. PS4400 series to provide rear I/O capability. On the PS44X0 backplanes, H.110 Bus: J3 has contacts that extend through the On all PS4400B backplanes, the H.110 backplane for user I/O. J3 is not rout- bus is available on J4. J5 has contacts ed, except for the pins in rows “Z” and Front PS1131 Modular backplane that extend through the backplane to “F” which are grounded. Although dif- interface with a rear board. None of ferent from the PS4400 series, the the pins of J5 are connected on the PS4400B backplane. Multiple PS1150 bridges backplane except for the pins in row series use of low profile, CompactPCI may be used to create systems of any “F” which are grounded. bridges enables all rear slots to be slot count up to a maximum of 21, as used, as per the IEEE specification H.110 Bridging: specified by the H.110 standard. The concerning RTMs. PS1150 is also a low profile bridge The PS1150 H.110 bridge module is module and therefore does not used to extend the H.110 bus beyond interfere with rear transition modules. the 8 slots available on any one 75 <16mm CPCI Backplanes Material: Backplanes 7 U with H.110 Fibreglass epoxy to IEC 60 249 (type FR4) Supply includes: Number of layers 10 Backplane, fully populated. Layer structure 2 GND layers H.110 connected to system slot PCB thickness 3.2 mm CPCI H.110 132/264 MBytes/32, 64-bit Data transfer rate Slots Model No. RP design design (for CPCI) Power ’bugs’ plus 3SE SE 3688.508 up to 4 slots: 4SE SBME 3688.507 1 x ATX connector Power inlets 5SE SBME 3687.875 5 – 7 slots: 2 x ATX connector 6SBME SBME 3687.874 8 slots: 3 x ATX connector 7SBE SBME 3687.873 CPU slot Right 8S SBME 3687.877 PCI 2.1 (PCI specification) PICMG 2.0 or 3.0 H.110 not connected to system slot (CompactPCI) Standards PICMG 2.1 (hot swap) CPCI H.110 PICMG 2.5 (CPCI Computer Slots Model No. RP design design Telephony) 3S S 3688.427 IEEE 1101.1/10/11 Front view 4S SB 3688.426 Installation height 7 U 5S SB 3688.506 Distance between slots 4 HP 6SB SB 3688.505 J1, J2 64 bit Connectors J3 rear I/O 7SBE SB 3688.504 J4 H.110 8S SB 9805.494 Operating temperature 0° – 70°C Extendible using low profile bridges, see page 515. range S = Stand alone Relative humidity 90 %, non-condensing B M = Middle segment Geographic addressing Yes B = Beginning segment E = Ending segment 3.2 J4 pin assignment No. Row Z Row A Row B Row C Row D Row E Row F 25 NP SGA4 SGA3 SGA2 SGA1 SGA0 FG 24 NP GA4 GA3 GA2 GA1 GA0 FG 23 NP +12 V /CT reset /CT EN –12 V CT_MC FG 22 NP PFSO# RSVD RSVD RSDV RSDV FG 21 NP -SEL Vbat PFS1# RSDV RSDV SEL VbatRtn FG 20 NP NP NP NP NP NP NP Rear view 19 NP NP NP NP NP NP NP 18 NP VRG IN/C IN/C IN/C VRGRtn NP 17 NP NP NP NP NP NP NP 16 NP NP NP NP NP NP NP 15 NP -Vbat IN/C IN/C IN/C Vbat Rtn NP 14 13 KEY AREA 12 11 NP CT_D29 CT_D30 CT_D31 V(I/O) /CT_FRAME GND 10 NP CT_D27 +3.3 V CT_D28 +5 V /C_FRAME B GND 9 NP CT_D24 CT_D25 CT_D26 GND /FR_COMP GND 8 NP CT_D21 CT_D22 CT_D23 +5 V CT_C8 A GND 7 NP CT_D19 +5 V CT_D20 GND CT_C8 B GND 6 NP CT_D16 CT_D17 CT_D18 GND CT_NETREF GND 5 NP CT_D13 CT_D14 CT_D15 +3.3 V CT_NETREF GND 4 NP CT_D11 +5 V CT_D12 +3.3 V SCLK GND 3 NP CT_D8 CT_D9 CT_D10 GND SCLK-D GND 2 NP CT_D4 CT_D5 CT_D6 CT_D7 GND GND 1 NP CT_D0 +3.3 V CT_D1 CT_D2 CT_D3 GND Key to J4 pin assignment CT_name = H.110 TDM bus signals -SELVbat = short loop battery +5 V = +5 V power SELVbatRtn = short loop battery return +3.3 V = +3.3 V power -Vbat = telecom power distribution bus GND = logic ground VbatRtn = return bus pin for -Vbat V(I/O) = I/O cell power SGA0-SGA4 = shelf enumeration bus signals FG = frame ground GA0-GA4 = slot ID signals: not bussed RSVD = reserved for future use VRG = bus for ringing voltage = a pin and pad REQUIRED to be not VRGRtn = bus for ringing voltage NP populated to meet safety regulations PFSO#-PFS1# = busses for power fail sense = No connect required for safety KEY AREA = area utilized for key IN/C agency insulation requirements Rittal Catalogue 32/Electronic Packaging 513 CPCI