eInstrument Node User`s Manual
Contents
1. Row A B C D E F 1 PETOp0 PETOn0 3 3V VPWR D GND GND GND GND MRSTI 3 3 3V VPWR 4 GND GND GND GND MRSTO 5 3 3V VPWR 6 GND GND GND GND 12V 7 3 3V VPWR 8 GND GND GND GND 12V 9 GAO 10 GND GND GND GND VPWR 11 PEROpO PEROn0 MBIST MPRESENT 12 GND GND GA1 GND GND VPWR 13 3 3VAUX MSDA 14 GND GND GA2 GND GND VPWR 15 MSCL 16 GND GND MVMRO GND GND 17 18 GND GND GND GND 19 PEX REFCLK PEX REFCLK WAKE ROOT LED Table 9 XMC Connector J15 Pinout Note Special function pins are shown in yellow elnstrument Node User s Manual These are reserved pins on VITA 42 3 specification 35 Table 10 J15 Signal Descriptions Signal Description P15 Pin PETOp0 PETOn0 PCI Express Tx A1 Bl PEROp0 PEROn0 PCI Express Rx A11 B11 PEX REFCLK PCI Express reference clock 100 MHz A19 B19 MRSTI Master Reset Input active low F2 MRSTO Master Reset Output active low F4 GAO Geographic Address 0 F9 GAI Geographic Address 1 C12 GA2 Geographic Address 2 C14 MBIST Built in Self Test active low Cll MPRESENT Present active low F11 MSDA PCI Express Serial ROM data F13 MSCL PCI Express Serial ROM clock F15 MVMRO PCI Express Serial ROM write enable C16 WAKE Wake indicator to upstream device active low D19 ROOT Root device active low E19 elnstrument Node User s Manual 362. Fan Mode JP3 R33 Always on factory default open open Always off open short XMC controlled short open Table 7 Setting Fan Mode Power Supply The eInstrument Node uses a single 12Vdc power supply Maximum supply current is 5A Innovative Part Number Description Manufacturer Manufacturer Part Number 80191 0 Power supply AC to DC 110 220VAC CUI ETS120500UTC P5P SZ 12V SA output notebook style This is a universal power supply compatible with worldwide safety standards and is UL CE RoHS compliant Power cords for USA EU P N 65094 and UK P N 65095 styles are available elnstrument Node User s Manual 30 Environmental Limits Condition Limits Operating Temperature 0 to 55 C ambient Recommended not to exceed 70C as measured by the on card temp sensor Humidity 5 to 95 non condensing Storage Temperature 30 to 85 C Forced Air Cooling Forced air cooling required with a minimum of 5 CFM for 27C ambient Vibration operating ETS 300 019 1 3 R3 class 3 3 Power cable screw attached Vibration storage ETS 300 019 1 1 R1 class 1 2 Vibration transportation ETS 300 019 1 2 R2 class 2 3 except for free fall class 2 2 Table 8 eInstrument Node Environmental Limits elnstrument Node User s Manual 31 Connectors Digital IO Connector JP1 JP1connector is the rear panel
3. elnstrument Node User s Manual xDIO_P6 Pin 13 Pin 7 J DIO P6 xDIO_N6 Pin 15 Pin 41 J_DIO_N6 xDIO_P7 Pin 14 Pin 8 J DIO P7 xDIO_N7 Pin 16 Pin 42 J DIO N7 xDIO_P8 Pin 17 Pin 9 J_DIO_P8 xDIO_N8 Pin 19 Pin 43 J_DIO_N8 xDIO_P9 Pin 18 Pin 10 J DIO P9 xDIO_N9 Pin 20 Pin 44 J_DIO_N9 xDIO_P10 Pin 21 Pin 11 J_DIO P10 xDIO N10 Pin 23 Pin 45 J DIO N10 xDIO P11 Pin 22 Pin 12 J DIO P11 xDIO_N11 Pin 24 Pin 46 J DIO N11 xDIO P12 Pin 25 Pin 13 J DIO P12 xDIO_N12 Pin 27 Pin 47 J DIO N12 xDIO P13 Pin 26 Pin 14 J DIO P13 xDIO_N13 Pin 28 Pin 48 J_DIO_N13 xDIO_P14 Pin 29 Pin 15 J_DIO P14 xDIO_N14 Pin 31 Pin 49 J DIO_N14 xDIO_P15 Pin 30 Pin 16 J DIO P15 xDIO N15 Pin 32 Pin 50 J DIO N15 xDIO P16 Pin 33 Pin 17 J DIO P16 xDIO N16 Pin 35 Pin 51 J DIO N16 xDIO_P17 Pin 34 Pin 18 J DIO P17 xDIO_N17 Pin 36 Pin 52 J DIO N17 xDIO P18 Pin 37 Pin 19 J DIO P18 xDIO N18 Pin 39 Pin 53 J DIO N18 xDIO P19 Pin 38 Pin 20 J DIO P19 xDIO N19 Pin 40 Pin 54 J DIO N19 xDIO_P20 Pin 41 Pin 21 J DIO P20 xDIO_N20 Pin 43 Pin 55 J_DIO_N20 xDIO_P21 Pin 42 Pin 22 J DIO P21 elnstrument Node User s Manual 27 xDIO_N21 Pin 44 Pin 56 J_DIO_N21 xDIO_P22
4. XMC J16 Connector J16 is the XMC secondary connector to the host and is used for digital IO data link and triggering functions XMC pin header 0 05 in pin spacing vertical mount Number of Connections 114 arranged as 6 rows of 19 pins each Connector Part Number Samtec ASP 105884 01 Figure 9 J16 XMC Connector Orientation nmoou gt elnstrument Node User s Manual 37 Table 11 XMC Secondary Connector J16 Pinout Column Row A B C D E F 1 DIOO DIO19 2 DGND DGND DIO1 DGND DGND DIO20 3 E DIO2 Z DIO21 4 DGND DGND DIO3 DGND DGND DIO22 5 DIO4 DIO23 6 DGND DGND DIOS DGND DGND DIO24 7 DIO6 DIO25 8 DGND DGND DIO7 DGND DGND DIO26 9 DIO38 DIO39 DIO8 D1040 DIO41 DIO27 10 DGND DGND DIO9 DGND DGND DIO28 11 DIO10 DIO29 12 DGND DGND DIO11 DGND DGND DIO30 13 DIO12 DIO31 14 DGND DGND DIO13 DGND DGND DIO32 15 DIO14 DIO33 16 DGND DGND DIO15 DGND DGND DIO34 17 DIO16 DIO35 18 DGND DGND DIO17 DGND DGND DIO36 19 DIO42 DIO43 DIO18 DIO_CLK DIO_CLK DIO37 Note DIO pins connect to JP1 rear panel MDR68 All unused pins are not labeled elnstrument Node User s Manual 38 Table 12 P16 Signal Descriptions
5. g ES 2233 SW1 PCIe 3 Rx Controls i Sa 1P4 Fan lt i ower JP1 DIO J16 access JP5 Enable XMC control for fan JP3 Power Switch Connector J16 DIO Host Link JP2 Power Input Figure 11 Connector locations on carrier card Rev D elnstrument Node User s Manual Fimnra 19 Cannartar lacatinne an carriar card Raw Et JP7 Standalone Power Enable P CA 715636 ASSY B0182 SM E 5 o 2 ES x e 2 2 o INOVATIVE INTEGRATION MADE IN USA JP5 Enable XMC control for fan SW2 PCIe Tx Controls JP3 Power Switch Connector JP8 12V SW1 PCIe Enable Rx Controls elnstrument Node User s Manual J15 PCIe JP1 DIO J16 access JP2 Power Input SW3 GA 0 2 amp ROOT Controls J16 DIO Host Link 44 Carrier Card Dimensions la 4568mil i leg 125 mil 125mil gt E t O g qt 250mil 250mil 328mi mn fo o 4 le J 4 tra HR A d i 447 4 EA Htt t F itt HARE ett 4 iini f EHHE tatty HF mil E al H 4HE 4 1666mil HH E tt po t 4e t heP T Lo o f HHE atte AE a q 4444 Z 3005mil 3 t Fea i 4 Vail 3937mil a o tt ate HRE G o o a o LA ah ty xr
6. GTE M4 t a m t E t 4 Hte o Eon O Fhe m D o gp m n P Y oo oo t m om x x a mjo PPO qq 4 x 0 005 52 0000 000 pp pt Pq pS o og p p M n oja o 4 y x Peete a a ar 250mil x 80 ojo no p x 250mil i q lt 125mil 125mil gt H 1892mil 1848mil gt pa 6516mil E Figure 13 eInstrument Node Mechanicals Rev B elnstrument Node User s Manual 45 MA Eg TA wuna atte ARtttee t A a E a 46 Figure 14 eInstrument Node Mechanicals Rev E elnstrument Node User s Manual elnstrument Node User s Manual 47 Enclosure Dimensions Dimension In mm W Width 3 94 100 1 B Height 1 52 38 6 L Overall Length 6 75 171 5 Table 14 nclosure Dimensions Rev A to C Ww 1 520 pes Ez F Material Aluminum or vinyl clad aluminum 7 Pe _ 1 420 36 07 1 220 30 99 1 105 28 07 0 990 25 15 0 875 22 23 0 760 19 30 B 0 570 lee 0 455 11 56 0 340 2 65 0 225 5 72 Material Extruded aluminum 0 Lge A Bezels shown are for illustration only Dimension In mm W Width 3 94 100 1 B Height 1 52 38 6 L Overall Length 6 75 171 5 Table 15 Enclosure Dimensions elnstrument Node User s Manual 48 on Figure 15 eInstrument Enclosure Chassis Assembly Rev A eln
7. Pin 25 J_DIO_P24 DIO33 Pin F15 Pin 59 J_DIO_N24 DIO34 Pin F16 Pin 26 J_DIO_P25 DIO35 Pin F17 Pin 60 J_DIO_N25 DGND NC Pin 27 J_DIO P26 DGND NC Pin 61 J_DIO_N26 DIO36 Pin F18 Pin 28 J_DIO_P27 DIO37 Pin F19 Pin 62 J_DIO_N27 elnstrument Node User s Manual 25 DIO38 Pin A9 Pin 29 J_DIO_P28 DIO39 Pin B9 Pin 63 J_DIO_N28 DGND NC Pin 30 J_DIO_P29 DGND NC Pin 64 J_DIO_N29 DIO40 Pin D9 Pin 31 J_DIO_P30 DIO41 Pin E9 Pin 65 J_DIO_N30 DIO42 Pin A19 Pin 32 J_DIO P31 DIO43 Pin B19 Pin 66 J_DIO_N31 DGND NC Pin 33 J_DIO_P32 DGND NC Pin 67 J_DIO_N32 DIO_CLK P Pin D19 Pin 34 J_DIO_P33 DIO_CLK_N Pin E19 Pin 68 J_DIO_N33 Table 5 eInstrument Node 0 DIO Signal Mapping eInstrument Node DIO Signal Mapping for 1 X6 Series JN4 usage The 1 version eInstrument Node DIO signals use 0 ohm resistor jumpers to route the DIO signals from the JN4 connector to JP1 Connector DIO Signal JN4 Connector JP1 Connector DIO Signal xDIO_P0 Pin 1 Pin 1 J_DIO PO xDIO_NO Pin 3 Pin 35 J_DIO_NO xDIO_ P1 Pin 2 Pin 2 J DIO Pl xDIO_N1 Pin 4 Pin 36 J DIO N1 xDIO_P2 Pin 5 Pin 3 J DIO P2 xDIO_N2 Pin 7 Pin 37 J DIO _ N2 xDIO_P3 Pin 6 Pin 4 J_DIO P3 xDIO_N3 Pin 8 Pin 38 J_DIO_N3 xDIO_P4 Pin 9 Pin 5 J_DIO P4 xDIO_N4 Pin 11 Pin 39 J_DIO_N4 xDIO_P5 Pin 10 Pin 6 J_DIO PS xDIO_N5 Pin 12 Pin 40 J_DIO_N5
8. Pin 45 Pin 23 J_DIO P22 xDIO_N22 Pin 47 Pin 57 J_DIO_N22 xDIO_P23 Pin 46 Pin 24 J_DIO_P23 xDIO_N23 Pin 48 Pin 58 J_DIO_N23 xDIO_P24 Pin 49 Pin 25 J_DIO P24 xDIO_N24 Pin 51 Pin 59 J_DIO_N24 xDIO_P25 Pin 50 Pin 26 J_DIO P25 xDIO_N25 Pin 52 Pin 60 J_DIO_N25 xDIO_P26 Pin 53 Pin 27 J_DIO P26 xDIO_N26 Pin 55 Pin 61 J_DIO_N26 xDIO_P27 Pin 54 Pin 28 J_DIO P27 xDIO_N27 Pin 56 Pin 62 J_DIO_N27 xDIO_P28 Pin 57 Pin 29 J_DIO P28 xDIO_N28 Pin 59 Pin 63 J_DIO_N28 xDIO_P29 Pin 58 Pin 30 J_DIO P29 xDIO_N29 Pin 60 Pin 64 J_DIO_N29 xDIO_P30 Pin 61 Pin 31 J_DIO P30 xDIO_N30 Pin 63 Pin 65 J_DIO_N30 xDIO_P31 Pin 62 Pin 32 J_DIO P31 xDIO_N31 Pin 64 Pin 66 J_DIO_N31 NA NC Pin 33 J_DIO_P32 NA NC Pin 67 J_DIO_N32 DGND NC Pin 34 J_DIO_P33 DGND NC Pin 68 J_DIO_N33 Table 6 eIntrument Node DIO Signal Mapping Consult the documentation for each module for J16 usage or JN4 usage on that module elnstrument Node User s Manual 28 Cooling the XMC The XMC can be cooled using both conduction cooling and with a fan in the enclosure When these features are used XMC modules up to 30W can be used Conduction Cooling The conduction cooling for the module uses thermal conduction to the enclosure to spread the heat as much as possible The enclosure is made from extruded aluminum and provides a good heat sink for the module so the heat is conducted from the module out to the enclosure The module mounts to the carrier card and attaches t
9. Signal Description P16 Pin DIOO Digital IO 0 Cl DIO1 Digital IO 1 C2 DIO2 Digital IO 2 C3 DIO3 Digital IO 3 C4 DIO4 Digital IO 4 C5 DIO5 Digital IO 5 C6 DIO6 Digital IO 6 C7 DIO7 Digital IO 7 C8 DIO8 Digital IO 8 C9 DIO9 Digital IO 9 C10 DIO10 Digital IO 10 Cll DIO11 Digital IO 11 C2 DIO12 Digital IO 12 C13 DIO13 Digital IO 13 C14 D1014 Digital IO 14 C15 DIO15 Digital IO 15 C16 DIO16 Digital IO 16 C17 DIO17 Digital IO 17 C18 DIO18 Digital IO 18 C19 DIO19 Digital IO 19 Fl DIO20 Digital IO 20 F2 DIO21 Digital IO 21 F3 DIO22 Digital IO 22 F4 DIO23 Digital IO 23 FS DIO24 Digital IO 24 F6 DIO25 Digital IO 25 F7 DIO26 Digital IO 26 F8 DIO27 Digital IO 27 F9 DIO28 Digital IO 28 F10 elnstrument Node User s Manual 39 Signal Description P16 Pin DIO29 Digital IO 29 F11 DIO30 Digital IO 30 F12 DIO31 Digital IO 31 F13 DIO32 Digital IO 32 F14 D1033 Digital IO 33 F15 D1034 Digital IO 34 F16 D1035 Digital IO 35 F17 D1036 Digital IO 36 F18 D1037 Digital IO 37 F19 D1038 Digital IO 38 A9 D1039 Digital IO 39 B9 D1040 Digital IO 40 D9 DIO4 Digital IO 41 E9 D1042 Digital IO 42 A19 D1043 Digital IO 43 B19 DIO CLK Digital IO Clk D19 DIO_CLK Digital IO Clk E19 P1 Cabled PCI Express Connector Number of Connections 18 total arranged as two rows of 9 each Connector Part Number Molex 74150 001 Mating Cable See table of approved cables elnstrumen
10. this interface standard and mechanical description XMC Mechanicals The XMC must conform to VITA 42 with an IEEE 1386 form factor for a single width mezzanine card Mechanicals for the card are shown here fr30 0d 110 00 MIN 6 00 KEEP OUT AREA o 4PL ae LT PIN A1 TYP i 69 50 65 00 1 0 141 00 74 00 0 00 0 50 ES 2 70 20 10 HOLES 6PL _ ___ 149 00 0 00 4 50 Figure 3 XMC Module Dimensions Spacing from the XMC module to the carrier PCB is 10mm The shaded zone shown in the figure has no components on the carrier card Power to the XMC The eInstrument Node has power supplies to support the XMC module Input power is nominally 12V and limited to 5A Supplies in the eInstrument Node provide the other voltages required by the XMC The rated value of each supply is shown however total current is limited to 5A elnstrument Node User s Manual 17 Figure 4 eInstrument Node Power Diagram XMC 3 3V 0 1A VAUX Module J15 Pins C1 C3 C5 C7 J15 PinF8 J15 Pinc 13 J15 Pins F1 F3 F5 F7 F9 VPWR F11 F13 F15 J15 Pin F6 J15 and J16 Pins A2 A4 A6 AS A10 A12 A14 A18 B2 B4 BS B8 B10 B12 B14 B18 D2 D4 D6 D8 D10 D12 D14 D18 E2 E4 E5 E8 E10 E12 E14 E18 Note that the Vin supply is directly connected to the VPWR pins of the XMC If the XMC uses these power supply connectio
11. to boot and run standalone Power Control in Standalone Mode The power control to the eInstrument node may be controlled solely by the front panel power switch by install a jumper on JP7 This jumper overrides the PCI Express power control and should be removed if the PCI Express interface is used Jumper Function SettingJP7 JP7 Standalone power enable Shorted standalone mode Open PCI Express host mode default Figure 6 Standalone Power Enable If the eInstrument Node card is Rev B contact technical support for details on standalone use Notes for Standalone Use with Innovative XMC Modules Innovative XMC module families require various modifications to work standalone elnstrument Node User s Manual 22 Module Family Standalone Operation Requirements X3 The X3 modules are not able to boot and run standalone because the application logic image is loaded over PCI Express bus X5 X5 modules support standalone operation and boot from on module FLASH memory The application logic must be modified to run without PCI Express functions including temperature monitoring Itis important to implement temperature monitoring function in standalone mode to prevent overheating See X5 Framework Logic User Guide for details on the required logic modifications X6 X5 modules support standalone operation and boot from on module FLASH memory The application logic must be modified to run without PCI Ex
12. 2 ROOT To XMC J15 E19 ROOT is used by XMC modules that can be configured as the PCI Express root port Table 2 XMC Special Purpose Pins Controls to the XMC The geographic address can be set to the XMC as well as the PCI Express ROOT control using switch SW3 The geographic address is used to set a specific address for each eInstrument Node so that software and hardware can configure itself according to its location Implementation of these features is specific to each XMC module so consult the manual for the XMC you are using The ROOT control tells the XMC module that it is the PCI Express root device This control is normally off indicating that the XMC is the endpoint device elnstrument Node User s Manual 19 Switch Function Settings Notes 3 1 Geographic On 0 Geographic address features are module specific Address 2 0 on on on address 000 default 4 PCIe ROOT On ROOT Endpoint device means that the host computer controls the PCI Off Endpoint Express bus default ROOT means the XMC controls the PCI default Express bus Table 3 XMC Controls using SW3 PCI Express Interface The PCI Express interface is a single x1 lane operating at 2 5 Gbps that is connected to the host computer through a cable The interface is full duplex sends and receives simultaneously The interface supports burst rates of 250 MB s and continuous data rates of about 200 M
13. B s between the module and the host Limits on data transfer rates are determined primarily by the XMC and host computer capabilities The only impact that the eInstrument node has on performance is that the cable introduces some additional latency in the link This latency can affect overall rate because PCI Express credit management as well as the whatever mechanism the XMC uses for data transfer are slowed by the cable length This is not usually an even measurable effect The PCI Express interface is completely compatible with any PCI Express system and complies with PCI Express Gen 1 1 1 specifications The cable is defined in the PCI Express Cable Interface 1 0 specification The approved cable is is provided in this manual PCI Express Cables The PCI Express cable is available in several lengths The eInstrument Node settings at the factory are for the 1m cable Innovative Part Number Description Manufacturer Manufacturer Part Number 67057 PCI Express Cable x1 lane 5 meter Molex 7457600005 67058 PCI Express Cable x1 lane 3 meter Molex 7457600003 67059 PCI Express Cable x1 lane 1 meter Molex 7457600001 elnstrument Node User s Manual 20 Table 4 Approved PCI Express cable list for eInstrument Node Electrical Isolation and Hot Plug The eInstrument Node is electrically isolated from the host computer The isolation barrier in the eInstrument Node separates the local power to the XMC from t
14. EE DWG FOR NO PER NO 80185 1 1 80182 0 1 XMCe CARRIER for Cabled PCI Express 2 1 63119 2 Chassis Extrusion Modified from Lansing Micropac E 3 1 63122 3 Rear end plate for cabled PCle enclosure 4 1 63120 4 Cover Plate Modified from Lansing Micropac E 5 1 5 6 2 6 63121 Front end plate for cabled PCle enclosure 63125 Bezel for Lansing Micropak E plastic OVERLAY MYLAR FOR REAR PANEL elNSTRUMENT 7 1 64069 7 NODE ENCLOSURE 80185 OVERLAY MYLAR FOR FRONT PANEL elNSTRUMENT 8 1 64068 8 NODE ENCLOSURE 80185 ASSEMBLY CABLE FRONT PANEL BUTTON AND CABLE 9 1 67063 9 FOR CABLED PCIE XMC ENCLOSURE 80185 10 2 10 JACKSCREW FOR MDR68 11 2 11 JACKSCREW 4 40 MALE FEMALE IN 12 3 63142 12 SCREW M2 X6MM S S PAN HEAD 13 4 63141 13 SCREW 4 40 X3 8IN PAN HEAD BLACK OXIDE Connection to the Host System The eInstrument Node connects to the host system using a PCI Express cable Connect the cable to P1 on the rear panel labeled PCI Express The other end of the cable connects to the host computer Attach Power Supply The eInstrument Node uses 12V de to power the Node electronics and XMC module With the power switch in the down position attach the power supply to the rear panel connector The unit will not power on until the PCI Express cable is attached and the power switch is in the up position Attach IO Cables Now install any application cables Connections to the XMC module SHOULD be made before power on These include f
15. Innovative Integration elnstrument Node User s Manual elnstrument Node User s Manual The eInstrument Node User s Manual was prepared by the technical staff of Innovative Integration on April 3 2015 For further assistance contact Innovative Integration 2390 A Ward Ave Simi Valley California 93065 PH 805 578 4260 FAX 805 578 4225 email techsprt innovative dsp com Website www innovative dsp com This document is copyright 2015 by Innovative Integration All rights are reserved VSS Distributions eInstrument Node Documentation Manual eInstrument NodeMaster odm HXXXXXX Rev 1 0 Initial release Rev 1 1 Standalone use described Added Rev D layout Rev 1 2 Updated for Rev E PCBA Table of Contents eInstrument Node User s Manuall ccccccsscccccssssssssssssscccccccccsesssssscccccccscesscscccccecceseesccscccsesecsessescssccseeD SN A Real Time Sol A a Se 7 Whatis eInstrument Node penas 8 Innovative Integration Technical Support cecesceseesceeseeseceseeseeeccesecaeesecesecsecesecseseseceeeaecaeeseceaeeeeeseeeenteeensaeensas 9 Innovative Integration Web Site sccccer seers secteeas Mil cee adic etic ea 9 Typographic Conventions isscctevsovessesei caseeccteeesnevahendeuvesiessteecae leas E E ove A ueasiveal E E E R ah verte 9 Waist ati oinsscascsccdceccdecciasesteceesddesseesceeateinetessustevseccestcasdassovsdeceuedecosasestvesestocscassevedeeescdecesueevesesesscecssancesses
16. an Intel processor is recommended Minimum recommended memory is 1 GB Adapter Card Installation The PCI Express cable adapter card installs in either a PCI Express slot in a desktop system or using an ExpressCard slot in a note book computer Caution These cards are sensitive to electrostatic discharge Ground yourself to the computer during installation 1 Turn power off and unplug the PC or notebook 2 Insert the adapter card in the PCI Express slot or ExpressCard slot 3 Secure the adapter bracket screw if chassis has provision for a screw XMC Installation You will need a small flat head and a Philips head screwdriver for this installation 1 Be sure the eInstrument Node is unplugged from power and its PCI Express cable is not attached 2 Remove the three screws on the bottom of the enclosure elnstrument Node User s Manual 10 10 11 12 13 14 15 16 Ih 18 19 20 Remove the two rear bracket screws Slide the entire inner assembly and top cover to the rear about 1 inch 2 cm Detach the front panel switch connector by reaching in the front of the unit and pulling up on the switch connector Slide the entire inner assembly out of the enclosure Install XMC cooling bars if required For X3 modules only the bar in the center of the card is used For X5 modules the two side cooling bars are used Install the XMC module Carefully insert the module connectors and push the modul
17. as it appears onscreen or in code It also represents anything you must type Boldface Text in this style is used to strongly emphasize certain words Emphasis Text in this style is used to emphasize certain words such as new terms Cpp Variable Text in this style represents C variables Cpp Symbol Text in this style represents C identifiers such as class function or type names KEYCAPS Text in this style indicates a key on your keyboard For example Press ESC to exit a menu Menu Command Text in this style represents menu commands For example Click View Tools Customize elnstrument Node User s Manual Installation This chapter describes the hardware installation procedure for the host computer and the XMC module into the eInstrument Node For the software installation for the particular XMC module you are using consult the documentation on that module Host Hardware Requirements The host computer must have either a PCI Express cable connector an open PCI Express or ExpressCard slot for installation At the time of this manual most computers require a PCI Express cable adapter card to communicate with the eInstrument Node The PCI Express must be PCI Express 1 1 compatible with 2 5 Gbps signaling If you intend to use an Innovative X3 or X5 family module the host computer is recommended to be either Windows Vista or Linux Innovative software makes extensive use of the Intel IPP software so
18. connector for the connection to J16 on the XMC module Connector Part Number 3M part number 10268 55H3VC Mating Connector 3M part number 10168 6000EC IDC Digikey www digikey com P N MPB68A ND Innovative part number 65057 MDR68 male to male 36 inches 0 91meters This is the MDR68 as viewed from the rear panel Pin 35 Pin 68 i l Pin 1 Pin 34 elnstrument Node User s Manual 32 eInstrument Node JP1 Rear Panel Connector Pin Assignments DIOO DIO1 DIO2 DIO3 GND GND DIO4 DIO5 DIO6 DIO7 GND GND DIO8 DIO9 DIO10 DIO11 GND GND DIO12 DIO13 DIO14 DIO15 GND GND DIO16 DIO17 DIO18 DIO19 GND GND DIO20 DIO21 DIO22 DIO23 GND GND DIO24 DIO25 DIO26 DIO27 GND GND DIO28 DIO29 DIO30 DIO31 GND GND DIO32 DIO33 DIO34 DIO35 GND GND DIO36 DIO37 DIO38 DIO39 GND GND DIO40 DIO41 DIO42 DIO43 GND GND DIO CLK P DIO CLK N Note No Connect P Power I Input O Output I O Bidirectional All are relative to X3 module elnstrument Node User s Manual XMC J15 Connector J15 is the XMC PCI Express connector to the host XMC pin header 0 05 in pin spacing vertical mount Number of Connections 114 arranged as 6 rows of 19 pins each Connector Part Number Samtec ASP 105884 01 Mating Connector Samtec ASP 105885 01 T mMOADY Figure 8 J15 XMC Connector Orientation elnstrument Node User s Manual 34 Column
19. e in until the connectors are fully inserted and the front bracket is flat on the card Install the screws holding the module to the cooling bars Install the screws for the module standoffs Install screws holding the XMC bracket to the card These install from the bottom of the assembly Configure the jumper for the fan to be always on or controlled by the XMC module Slide the top cover into the enclosure stopping about about inch 2 cm from completely coving the enclosure The cover perforations should be toward the front of the unit Slide the inner assembly with the XMC module into the enclosure to about 1 in 2 cm from the end The card slides in the enclosure using the extrusion slot just BELOW the centerline large extrusion that is threaded Plug the front panel switch into connector JP3 Slide the assembly and top into the enclosure until the XMC front bracket touches the front panel Install screws through the chassis bottom into the cooling bar DO NOT FULLY TIGHTEN THE SCREWS at this point Check the fit and then install the rear panel screws They should be snug do not overtighten Now tighten up the bottom screws for the cooling bar The assembly is complete at this point and ready for connection to the system elnstrument Node User s Manual 11 ALLT 12 elnstrument Node User s Manual Bill of Materials for Enclosure ITEM QTY PART REF DES Description S
20. enseceeeeseceeesecesecaesesesaeenseseeseaeeeeeeesnneened 22 Notes for Standalone Use with Innovative XMC Modulles ccccccescescceseesceeseeeeeeseceeeeseeesecsecesececeseeeeeeaeeesseeenseeensneeees 22 Digital TO Comme a oros 23 eInstrument Node DIO Signal Mapping X3 X5 Series J16 usage ccceeceesccseeseeseceeeeseeseceeceseceeeeseenseceteeeesteeesteeenses 24 eInstrument Node DIO Signal Mapping for 1 X6 Series JN4 usage cescecceseesseeseesseeseceseeseceeeeseensecsaeensneeenneeenses 26 Cooling the AMEX dl rl dale 29 Conduction COMA it deca a a a a 29 PS RN RN 30 Power UP eddie coo 30 Environmental Si essa 31 COME added 32 Digital TO Com e a e e 32 AMCOTIS COMO ii des ads 34 AMC J16 COME A di de its 37 PLT Cabled POT Express Connector s s ad 40 elnstrument Node User s Manual Power Connector 41 IN ex 2 0 bs ne a iia 42 Carrier Card Ma yout keri ien ea a E E inde oranda ieee ied E ON TOO EE Ravin ees ER 42 Camer Card Dimensions a 45 Enclosure DIMENSIONS amenena E A E T E A R A aE 48 Rackmount Dimensions ii A TAE ER E E EA OR ER a 51 elnstrument Node User s Manual List of Tables Table 1 e Instrument XMCP O WE laa ai cata 19 Table 2 XMC Special Purpose Pins ui didas id 19 Table 3 XMC Controls sing SW iii 20 Table 4 Approved PCI Express cable list for elnstrument Node ccceccecccessesseeseeseeesecseeesecseeeseceeeesecseeeseeeseeeeeseeeenseenaees 21 Table 5 eInstrument Node 0 DIO Sig
21. ent Node Mechanicals Rev Bou ecesccesessseeseessesseeseeeseeseeeseeseceseeseensecsesesecsecesecseesseseeeseseeeeeeeseeatensetensaes 45 eInstrument Node Mechanicals Rev E cceccessessesseeeseeseeeseeseeesecseceseesecesesacenseceeeesecaeeseceneeseseseeseeeseeseeessneeesaes 46 eInstrument Enclosure Chassis Assembly Rev A u cccccccccesesscesseeseeeeeseeseceseeseeeseescenseceeeeaeceeeeaeenaeeeuaeeseeeesneeensgs 49 eInstrument Enclosure Chassis Assembly Rev Buu cecccescessesseesseeseeseeeseeseeeseceeesecseeesecscesseceseeaeeneesaeensecrenseeaeenes 50 Rackmount Panel Dimension ra 51 elnstrument Node User s Manual Introduction Real Time Solutions Thank you for choosing Innovative Integration we appreciate your business Since 1988 Innovative Integration has grown to become one of the world s leading suppliers of DSP and data acquisition solutions Innovative offers a product portfolio unrivaled in its depth and its range of performance and I O capabilities Whether you are seeking a simple DSP development platform or a complex multiprocessor multichannel data acquisition system Innovative Integration has the solution To enhance your productivity our hardware products are supported by comprehensive software libraries and device drivers providing optimal performance and maximum portability Innovative Integration s products employ the latest digital signal processor technology thereby providing you the competitive edge s
22. er output swing is usually required for longer cables 1 1 2x 4 Output De emphasis 0 0dB Output De emphasis may be required for short cables or for signals 1 3 5dB to the PCI Express host bus Figure 5 Settings for PCI Express Transceiver Switches Note Switches in the ON position are 0 in this table The recommended tuning procedure is to connect the adapter to the remote device and perform a test for data integrity This could be a large data transfer or communications test to the remote device The signal tuning should be changed until reliable elnstrument Node User s Manual 21 data transfers are achieved Innovative provides test programs to validate connection quality for its data acquisition cards that are included with each XMC module Standalone Operation Beginning with Revision C The eInstrument Node supports standalone operation allowing XMC modules to operate without PCI Express interface This is convenient for embedded applications where the node is simply used to host a module Prerequisites for Standalone Operation Standalone operation is predicated on several conditions 1 The module must be able to operate without PCI Express signals including the 100 MHz reference clock provided by the bus 2 The module must control its own reset No bus reset is provided 3 The module must be able to boot itself Innovative X3 series modules do NOT have this capability X5 and X6 modules are able
23. eseeseeseeseesceeceececceecaecsecsecsecaesaesseeseeseeeseccseseeseeeeeseesaeeaeesaes 16 Figure 3 XMC Module Dimensions a A inte ess 17 Figure 4 eInstrument Node Power Diagraim cccesssscescesceeeeeceeseeseesecseeseeseesessessesseseesaeseeaesseesesseeaeesesaesseeseeseeseeneeeeeeeeees 18 Figure 5 Settings for PCI Express Transceiver Switches cccecceesssessesssesessesseeececceeceececeeceecaeesessessessesseeseeaeeeeseesseeesaeed 21 Figure 6 Standalone Power Enable is 22 Figure 7 eInstrument Node carrier card conductive cooling area eee sececsceeeceecneesecseeseesesseeseeseesceeceseeseceeseetsesteaeesaes 29 Figure 8 JIS XMC Connector Orientation eeecsessesessesseesesseesceseeeceeceececesecsecaeesessessessessessesaeaeeesecseaseaeesaeeeaeseaeeeaeeeaees 34 Figure 9 J16 XMC Connector Orientation eeeesessesessecsessessesscesceeceeceececesecsecseesessessessessessesaeeaeeeeeeseaseaeesaeseneseaeeeaeeeaees 37 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 Figure 17 Connector locations on carrier card Rev B and C ccccceccescesseeseesseeseeeecesecceeseenceeaecneecaeceseseenaeeseaeesseeeseeeensas 42 Connector locations on carrier card Rev D ccecceeseesseeseesseeseeseceseesceesecseeesecaeenaeseaessecesecseceaecseeeseeeeeaeeneenaeeeees 43 Connector locations on carrier card Rev E cccceceessesseeseesseesececeeseceseesesesecsesesecseeesecseeesecseeeaeeeeeaeenseseeeseeeeees 44 eInstrum
24. he host computer power Interface electronics to the elnstrument Node that communicate with the host computer are powered by the host computer over the PCI Express cable As defined in the PCI Express Cable Specification the PCI Express cable supports hot plug operation Since the eInstrument Node is electrically isolated it is safe to hot plug the unit It is also safe to turn the unit on or off while the host computer is connected Tuning for PCI Express Cable Lengths and Signal Quality The eInstrument Node has tuning controls for the PCI Express cable interface that adjust the signal amplitude de emphasis and equalization characteristics to improve reliability for longer cables These controls are set at the factory for the 1 meter cable Switches SWI and SW2 are used for the receive and transmit tuning These are dip switches located on the card which must be set manually during the tuning procedure The default settings are the recommended settings for most applications Switch Tuning Control Default 4 1 SW1 Receive cable to XMC 0000 off off off off SW2 Transmit XMC to cable 0000 off off off off Switch Function Settings Notes 2 1 Receive equalization 00 no equalization SW1 Tunes the signal to the XMC from the cable 01 0 2 54 dB SW2 Tunes the signals to the cable from the XMC 10 2 5 4 5 dB Higher equalization is usually required for longer cables 11 4 5 6 5 dB 3 Output swing 0 1x High
25. in 36 J DIO NI DGND NC Pin 3 J DIO P2 DGND NC Pin 37 J DIO N2 DIO4 Pin C5 Pin 4 J_DIO_P3 DIOS Pin C6 Pin 38 J_DIO_N3 DIO6 Pin C7 Pin 5 J DIO P4 DIO7 Pin C8 Pin 39 J_DIO_N4 DGND NC Pin 6 J DIO PS DGND NC Pin 40 J DIO N5 DIO8 Pin C9 Pin 7 J_DIO P6 DIO9 Pin C10 Pin 41 J_DIO_N6 DIO10 Pin C11 Pin 8 J_DIO P7 DIO11 Pin C12 Pin 42 J_DIO_N7 DGND NC Pin 9 J DIO P8 DGND NC Pin 43 J_DIO_N8 DIO12 Pin C13 Pin 10 J_DIO P9 DIO13 Pin C14 Pin 44 J_DIO_N9 DIO14 Pin C15 Pin 11 J DIO P10 DIO15 Pin C16 Pin 45 J_DIO_N10 DGND NC Pin 12 J_DIO P11 DGND NC Pin 46 J DIO NII DIO16 Pin C17 Pin 13 J DIO P12 elnstrument Node User s Manual 24 DIO17 Pin C18 Pin 47 J_DIO_N12 DIO18 Pin C19 Pin 14 J_DIO_P13 DIO19 Pin Fl Pin 48 J_DIO_N13 DGND NC Pin 15 J_DIO_P14 DGND NC Pin 49 J_DIO_N14 DIO20 Pin F2 Pin 16 J_DIO P15 DIO21 Pin F3 Pin 50 J_DIO_N15 DIO22 Pin F4 Pin 17 J_DIO P16 DIO23 Pin F5 Pin 51 J_DIO_N16 DGND NC Pin 18 J_DIO_P17 DGND NC Pin 52 J_DIO_N17 DIO24 Pin F6 Pin 19 J_DIO_P18 DIO25 Pin F7 Pin 53 J_DIO_N18 DIO26 Pin F8 Pin 20 J_DIO_P19 DIO27 Pin F9 Pin 54 J_DIO_N19 DGND NC Pin 21 J_DIO_P20 DGND NC Pin 55 J_DIO_N20 DIO28 Pin F10 Pin 22 J_DIO P21 DIO29 Pin F11 Pin 56 J_DIO_N21 DIO30 Pin F12 Pin 23 J_DIO P22 DIO31 Pin F13 Pin 57 J_DIO_N22 DGND NC Pin 24 J_DIO_P23 DGND NC Pin 58 J_DIO_N23 DIO32 Pin F14
26. nal Mapping cccceccescseseesseeseeseeeseeeeesecseceseeseeeaeceeeeaececesseeesecesesecsaneeceaeeeseeensntees 26 Table 6 elntrument Node DIO Signal Mapping ecccccescescesseesseeseesseeseeceeseceeeeseceeeseceesseseseeseceaeeseeeseceeeseseneeeseneeesaeeens 28 Table 7 Setting Fan Mode id doo 30 Table 8 eInstrument Node Environmental Limits ccececceeseesseeseessceseesceeseceeesecseeesecceeseseaeeseceseeseeeseeeeeeseeeseseseneessaeeess 31 Table 9 XxMC Connector JTS Prodi castidad SEDAS Ei Epad EEEa TABA einen dia rmian En R aR 35 Fable TO JLS MA DES OS ee Fines ie eae a es Resi a ee Pe een Eaa AES a EE a 36 Table 11 XMC Secondary Connector J16 Pinout cccececsccsceeseesceeseeeeeeseceeesecsceesecesecsecesecaeeeseseeesecsaeeseceseseenseeeenseeaaees 38 Tabl 12 Pl6 Signal Descriptions hag ect eigen ses 39 Table 13 P1 PCI Express Connector Pinout ccccecccescessesscesseeseeseensecseeesecseeesecseeeaeeseeseceeeeaecaeeseensecaeeeseseeeaeseeeeeseneenaaees 41 Table 14 nclosure Dimensions Rev A to C ccccececscssseeseesseeseesseeseceeeseceneesecnsecsecesecaecesesseeeaesenessecaeeseeeaeseeeseseesaeeeeeseaeees 48 Table 15 Briclostire Dimensions it italia 48 elnstrument Node User s Manual List of Figures Figure 1 elnstrument Node with XMC installed cable and power SUPDPLY ccecceseseeseeeseeseeeeeeseeeeeseenseeaeeeseeeenseeeentes 15 Figure 2 eInstrument Node Block Diagram cecessssessesssese
27. ns range and noise limitations of the module should be considered Consult the data sheet of each module to verify its range of operation and noise requirements Typical Output Voltage Min Max Output Output Output XMC Connector Pins Output Output Voltage Noise Minimum Maximum Voltage Voltage Typical Current Current 3 3V 3 2V 3 4V 30 mVp p 0 15A J15 pins C1 C3 C5 C7 12V 11 6 12 4 250 mVp p 0 0 10A J15 pin F8 Vin Dependent Dependent Dependent Dependent 5A J15 on VS on VS on VS on VS Pins F1 F3 F5 F7 F9 F11 F13 F15 elnstrument Node User s Manual 18 12V Filtered Vin Dependent Dependent Dependent Dependent SA J15 on VS on VS on VS on VS Pin F6 Standby 3 3V VAUX 3 2V 3 4V 10 mVp p 100mA J15 pin C13 Table 1 eInstrument XMC Power Special Purpose Pins In addition to the required signals the carrier uses a few reserved signals to provide additional controls between the XMC and carrier card Signal Direction XMC Connector Pin Function LED Control From XMC J15 F19 Front panel LED control 0 on Fan Control From XMC J15 C19 Fan control 1 on Jumper JP5 must be installed shorted VPWR To XMC J15 F1 F3 F5 F7 F9 F11 F13 F15 12V from power supply Current limited to 5A GAO To XMC J15 F10 Geographical address 0 GA1 To XMC J15 C12 Geographical address 1 GA2 To XMC J15 C14 Geographical address
28. o critical in today s global markets Using our powerful data acquisition and DSP products allows you to incorporate leading edge technology into your system without the risk normally associated with advanced product development Your efforts are channeled into the area you know best your application elnstrument Node User s Manual What is eInstrument Node eInstruments are Innovative s family of embedded instrumentation products These products are used to solve a variety of IO signal processing and embedded computing applications that require a smart device for local data acquisition and processing eInstruments enable distributed processing using modular IO with FPGAs and processors that collect and process data allowing complex systems to be engineered and managed in a flexible extensible way elnstrument Node User s Manual Innovative Integration Technical Support Innovative provides technical support via telephone or internet Hotline 805 578 4260 8 00AM 5 00 PM PST Alternately you may e mail your technical questions at any time to techsprt innovative dsp com Innovative Integration Web Site Additional information on Innovative Integration hardware and software are available via the Innovative Integration website at www innovative dsp com Typographic Conventions This manual uses the typefaces described below to indicate special text Typeface Meaning Source Listing Text in this style represents text
29. o exposed areas for heat conduction This conductive cooling area is designed to be used with modules that have ANSI VITA 20 conduction cooling features The eInstrument Node has implemented these features by providing the a subset of the VITA 20 pattern on the carrier card and aluminum bars that connect the module to the carrier and module To use the conduction cooling bars the carrier card must be removed from the enclosure Then attach the bars to the card using the screws through the bottom of the carrier DO NOT OVER TIGHTEN THE SCREWS The screws should just be snug There are three bars that can be used Innovative X3 modules use a single bar across the middle of the card X5 cards use two bars along each edge of the module 78108 ASSV o 3 E Ss ES ACACIA Mount thermal bar here Mount for X3 Remove screws thermal bars shown here here for X5 Figure 7 eInstrument Node carrier card conductive cooling area elnstrument Node User s Manual Using the Fan The carrier card also has a fan that blows directly on the XMC In the enclosure this fan provides about 2 CFM of cooling air Airis drawn in the bottom of the enclosure and exits the top It is important not to block these openings if the fan is used The enclosure should be a minimum of 1 4 inch above the tabletop for sufficient air flow The fan is either always on when power is on always off or can be controlled from the XMC through pin C19 on connector J15
30. on and convection cooling for the XMC module XMC modules with conduction cooling per VITA 20 standard can use the eInstrument Node conductive cooling features to pull heat from the module and distribute it to the enclosure A fan may also be used to cool the XMC module and is located directly under the XMC elnstrument Node User s Manual 15 FAN XMC Site VITA 42 3 Switches for PCI Express Geographical Address and Root JN4 Loy TET 4 for X6 JP1 Rear Panel He MDR68 Connector LIED O J15 0 for X3 X5 Switches for Revr Control 5 A T Power Pele Opio Control ano Transceiver isolators SA B VAUX 3 34 0 1A J ez P1 Host Isolation Switch 12V PCle Cable boundary Su pply Connector Power Figure 2 eInstrument Node Block Diagram XMC IO cables Standard Connections to the elnstrument Node The eInstrument node requires a connection to the host computer and an external A P memE power supply In addition some XMC modules such as Innovative X3 and X5 compres da families have digital IO connections to the rear panel The front panel provides re cree access to the XMC IO connections Adapter Card JP4 Digital IO Cable elnstrument Node User s Manual 16 XMC Module Site The eInstrument Node has a single XMC module site This module site hosts one PCI Express XMC module compliant to VITA 42 3 specification Modules must comply to
31. press functions Temperature monitoring is not affected See X5 Framework Logic User Guide for details on the required logic modifications Digital IO Connector The elnstrument Node Rev E provides DIO Signal access through the JP1 Connector There are two versions of eInstrument Node The 0 version supports DIO access for X3 and X5 Series boards The 1 version supports DIO access for X6 Series boards 23 MC oo mee Nal i A elnstrument Node User s Manual eInstrument Node DIO Signal Mapping X3 X5 Series J16 usage The 0 version eInstrument Node DIO signals use 0 ohm resistor jumpers to route the DIO signals from the P16 connector to JP1 Connector J16 is the mating XMC connector on the XMC Module for the eInstrument Node P16 connector The DIO signal mapping below is required because of the differential DIO scheme used on the X6 Series modules Beware that the XMC module DIO will not match the eInstrument Node JP1 J_DIO_P in all but one case DIOO DIO Signal P16 Connector JP1 Connector DIO Signal DIOO Pin Cl Pin 1 J_DIO PO DIO1 Pin C2 Pin 35 J_DIO_NO DIO2 Pin C3 Pin 2 J_DIO Pl DIO3 Pin C4 P
32. ront panel cables to the XMC module and the rear panel Digital IO connector elnstrument Node User s Manual 13 Ready to Use The eInstrument Node should now be ready for use It is always a good idea to double check all cables and power supply connections before power on to prevent damage The XMC module may require software installation to operate After performing the software installation for the XMC your eInstrument Node will enumerate in the host computer and is ready to use elnstrument Node User s Manual 14 elnstrument Node Hardware Introduction The eInstrument Node allows one PCI Express XMC module VITA 42 3 compatible to be used in a small enclosure that communicates with a host computer using cabled PCI Express This allows the IO module to be located outside the host computer up to 5 meters away yet still be part of the host computer from the software perspective The high bandwidth PCI Express link over the cable is completely transparent to the software No software drivers or changes to existing software are required to use the eInstrument Node Figure 1 eInstrument Node with XMC installed cable and power supply Integrated power supplies provide clean local power to the XMC module in the eInstrument Node Since the Node is isolated from the host computer a much more controlled electrical environment can result in better measurement quality for the XMC module The eInstrument Node provides conducti
33. seses LO Host Hardware Requena dit 10 Adapter Card Installations a a a las Jai 10 AMG Installation cc A e ed 10 Bil of Materials Tor EmGlosure ld eee ness nee 13 Connection to the Host System io Lit dao 13 Attach Power Suppl tios 13 Attach TO Cables dde Made debo 13 Readyito Us deta a a aa deeded 14 elnstrument Node a AAA O A LD Tntrod ction icn ee r E EA NS eas ee A a a ee 15 Standard Connections to the elnstrument Node cceccecseescesseeseeeseeseeceeseceseeaeceseeseeeaecsecesecseeesecseeeseceeeeaeceseesseeeseneesseeesaes 16 XMC Modules e e 17 XMCMechadicals miii did 17 Power to the MC dida 17 Special Purpose Pla A cued deed ele evade E Aa E aar 19 Controls to the MC laa dis 19 PCL EX press Interface ssc oc acc A asccucesccesd A duu aeaa dose araa aa ae aeaa ae ana oa aan Tans 20 PGLExpress Cables A ea ia eee ee Rae e el E 20 Electrical Isolation and Hot Plug ccceccccsessessesscceseesseeseeceeseceeeeseceaeesecesecsecesecsesesesceeseceeeeseceaeseeeseeeseatesseeeseeeeesseeees 21 Tuning for PCI Express Cable Lengths and Signal Quality cccceccesscesseseeseeeseceecesecseeeseeeeeseceeeeaecsseeeseeensaeeesateenses 21 Standalone Operations ier ahcse A oca sai 22 Prerequisites for Standalone Operation ccccescccscescesseeseeesceseeeccesecceesecesecsecaeesecesecsesesecseceseeseeeseceseaeceeeeaeseeeeeseeeeaeeees 22 Power Control in Standalone Mode ecccccescessesseesseeseeseeesecseeesecseeesecseeesecseessecsc
34. strument Node User s Manual 49 Figure 16 eInstrument Enclosure Chassis Assembly Rev B elnstrument Node User s Manual 50 Rackmount Dimensions A 1U panel for a 19 inch rackmount is available The panel mounts up to 4 eInstrument Nodes q 18 95 in gt Detail of each opening Figure 17 Rackmount Panel Dimensions elnstrument Node User s Manual 1U 1 75 in 51
35. t Node User s Manual 40 Pin B9 Pin B1 Pin A9 Pin A1 Table 13 P1 PCI Express Connector Pinout Pins Signal Al A2 PEX_RXn p AS A6 PEX REFCLKn p B8 B9 PEX Txn p A9 B1 B5 GROUND A8 PEX RESETn B3 WAKEn B4 PRESENTn B7 PWR ON A4 SB_RTN A3 A7 B2 B6 No Connects Power Connector The power connector can connect to many AC DC supplies or a cable may be made with the mating connector specified The outer diameter is 5 5 mm the inner barrel is 2 1mm Connector Part Number CUI P N PJ 005A elnstrument Node User s Manual 41 Inner barrel is Vin 12V nominal Outer shell is ground Input Voltage Range is 9 16 VDC Mechanicals The following diagram shows the eInstrument Node carrier card connectors and dimensions Detailed drawings for mechanical design work are available through technical support Carrier Card Layout SW2 PCIe JP6 Power Test J15 PCIe Tx Controls SW3 XMC settings P C B 714486 ASSY 80182 SW1 PCIe Rx Controls s n CABLED PEX XNC CARRER JP4 Fan Power 2 r En bad sz ya p JP1 DIO J16 access JP5 Enable XMC control for fan JP3 Power 316 DIO Host Link Switch JP2 Power Input Connector Figure 10 Connector locations on carrier card Rev B and C elnstrument Node User s Manual 42 SW2 PCIe Tx Controls JP7 Standalone Power J15 PCIe Enable F E 3 ER
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