DYNAMIC ENGINEERING 435 Park Dr., Ben Lomond, Calif. 95005 831-336-8891 Fax 831-336-3840 http://www.dyneng.com sales@dyneng.com Est. 1988 User Manual PIM-Universal-IO PMC IO Module PIM w/ SCSI II Bezel Connector for cpci Revision A1 Hardware: Revision 01
PIM-Universal-IO PMC IO Module Dynamic Engineering 435 Park Drive Ben Lomond, CA 95005 831-336-8891 831-336-3840 FAX www.dyneng.com This document contains information of proprietary interest to Dynamic Engineering. It has been supplied in confidence and the recipient, by accepting this material, agrees that the subject matter will not be copied or reproduced, in whole or in part, nor its contents revealed in any manner or to any person except to meet the purpose for which it was delivered. Dynamic Engineering has made every effort to ensure that this manual is accurate and complete. Still, the company reserves the right to make improvements or changes in the product described in this document at any time and without notice. Furthermore, Dynamic Engineering assumes no liability arising out of the application or use of the device described herein. The electronic equipment described herein generates, uses, and can radiate radio frequency energy. Operation of this equipment in a residential area is likely to cause radio interference, in which case the user, at his own expense, will be required to take whatever measures may be required to correct the interference. Dynamic Engineering s products are not authorized for use as critical components in life support devices or systems without the express written approval of the president of Dynamic Engineering. This product has been designed to operate with PIM carriers and compatible user-provided equipment. Connection of incompatible hardware is likely to cause serious damage. 2001 by Dynamic Engineering. Other trademarks and registered trademarks are owned by their respective manufactures. Manual Revision A. Revised 10/30/01 H a r d w a r e & S o f t w a r e D e s i g n P g 2 o f 1 4
Table of Contents Product Description and Operation... 5 PMC Module Front Panel IO Interface Pin Assignment... 7 PIM Module Pn4 IO Interface Pin Assignment... 8 Applications Guide... 11 Interfacing...11 Construction and Reliability...12 Warranty and Repair...12 Service Policy...13 Out of Warranty Repairs 13 For Service Contact:...13 Specifications... 14 Order Information... 14 H a r d w a r e & S o f t w a r e D e s i g n P g 3 o f 1 4
List of Figures FIGURE 1 PIM-UNIVERSAL-IO BEZEL 7 FIGURE 2 PIM-UNIVERSAL-IO PN4 INTERFACE 8 FIGURE 3 PIM-UNIVERSAL-IO SYSTEM DIAGRAM 9 H a r d w a r e & S o f t w a r e D e s i g n P g 4 o f 1 4
Product Description and Operation S2ASR683BL IO1 IO2 IO3 IO4 IO5 IO6 IO7 IO8 IO9 IO10 IO11 IO12 IO13 IO14 IO15 IO16 IO17 IO18 IO19 IO20 IO21 IO22 IO23 IO24 IO25 IO26 IO27 IO28 IO29 IO30 IO31 IO32 IO33 RP1a RP1b RP1c RP1d RP1e RP1f RP1g RP1h RP2a RP2b RP2c RP2d RP2e RP2f RP2g RP2h RP3a RP3b RP3c RP3d RP3e RP3f RP3g RP3h RP4a RP4b RP4c RP4d RP4e RP4f RP4g RP4h RP5g 1 16 0 Ω 2 15 0 Ω 3 14 0 Ω 4 13 0 Ω 5 12 0 Ω 6 11 0 Ω 7 10 0 Ω 8 9 0 Ω 1 16 0 Ω 2 15 0 Ω 3 14 0 Ω 4 13 0 Ω 5 12 0 Ω 6 11 0 Ω 7 10 0 Ω 8 9 0 Ω 1 16 0 Ω 2 15 0 Ω 3 14 0 Ω 4 13 0 Ω 5 12 0 Ω 6 11 0 Ω 7 10 0 Ω 8 9 0 Ω 1 16 0 Ω 2 15 0 Ω 3 14 0 Ω 4 13 0 Ω 5 12 0 Ω 6 11 0 Ω 7 10 0 Ω 8 9 0 Ω 7 10 0 Ω I_O1 I_O2 I_O3 I_O4 I_O5 I_O6 I_O7 I_O8 I_O9 I_O10 I_O11 I_O12 I_O13 I_O14 I_O15 I_O16 I_O17 I_O18 I_O19 I_O20 I_O21 I_O22 I_O23 I_O24 I_O25 I_O26 I_O27 I_O28 I_O29 I_O30 I_O31 I_O32 I_O33 I_O1 I_O2 I_O3 I_O4 I_O5 I_O6 I_O7 I_O8 I_O9 I_O10 I_O11 I_O12 I_O13 I_O14 I_O15 I_O16 I_O17 I_O18 I_O19 I_O20 I_O21 I_O22 I_O23 I_O24 I_O25 I_O26 I_O27 I_O28 I_O29 I_O30 I_O31 I_O32 I_O33 1 35 1 35 2 36 2 36 3 37 3 37 4 38 4 38 5 39 5 39 6 40 6 40 7 41 7 41 8 42 8 42 9 43 9 43 10 44 10 44 11 45 11 45 12 46 12 46 13 47 13 47 14 48 14 48 15 49 15 49 16 50 16 50 17 51 17 51 18 52 18 52 19 53 19 53 20 54 20 54 21 55 21 55 22 56 22 56 23 57 23 57 24 58 24 58 25 59 25 59 26 60 26 60 27 61 27 61 28 62 28 62 29 63 29 63 30 64 30 64 31 65 31 65 32 66 32 66 33 67 33 67 I_O35 I_O36 I_O37 I_O38 I_O39 I_O40 I_O41 I_O42 I_O43 I_O44 I_O45 I_O46 I_O47 I_O48 I_O49 I_O50 I_O51 I_O52 I_O53 I_O54 I_O55 I_O56 I_O57 I_O58 I_O59 I_O60 I_O61 I_O62 I_O63 I_O64 I_O35 0 Ω I_O36 0 Ω I_O37 0 Ω I_O38 0 Ω I_O39 0 Ω I_O40 0 Ω I_O41 0 Ω I_O42 0 Ω I_O43 0 Ω I_O44 0 Ω I_O45 0 Ω I_O46 0 Ω I_O47 0 Ω I_O48 0 Ω I_O49 0 Ω I_O50 0 Ω I_O51 0 Ω I_O52 0 Ω I_O53 0 Ω I_O54 0 Ω I_O55 0 Ω I_O56 0 Ω I_O57 0 Ω I_O58 0 Ω I_O59 0 Ω I_O60 0 Ω I_O61 0 Ω 16 15 14 13 12 11 10 9 16 15 14 13 12 11 10 9 16 15 14 13 12 11 10 9 16 15 14 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 RP6a RP6b RP6c RP6d RP6e RP6f RP6g RP6h RP7a RP7b RP7c RP7d RP7e RP7f RP7g RP7h RP8a RP8b RP8c RP8d RP8e RP8f RP8g RP8h RP5a RP5b RP5c IO35 IO36 IO37 IO38 IO39 IO40 IO41 IO42 IO43 IO44 IO45 IO46 IO47 IO48 IO49 IO50 IO51 IO52 IO53 IO54 IO55 IO56 IO57 IO58 IO59 IO60 IO61 I_O62 0 Ω 13 4 RP5d IO62 I_O63 0 Ω I_O64 0 Ω 12 11 5 6 RP5e RP5f IO63 IO64 Place resistors close to P1 IO63 IO61 IO59 IO57 IO55 IO53 IO51 IO49 IO47 IO45 IO43 IO41 IO39 IO37 IO35 IO33 IO31 IO29 IO27 IO25 IO23 IO21 IO19 IO17 IO15 IO13 IO11 IO9 IO7 IO5 IO3 IO1 63 64 63 64 61 62 61 62 59 60 59 60 57 58 57 58 55 56 55 56 53 54 53 54 51 52 51 52 49 50 49 50 47 48 47 48 45 46 45 46 43 44 43 44 41 42 41 42 39 40 39 40 37 38 37 38 35 36 35 36 33 34 33 34 31 32 31 32 29 30 29 30 27 28 27 28 25 26 25 26 23 24 23 24 21 22 21 22 19 20 19 20 17 18 17 18 15 16 15 16 13 14 13 14 11 12 11 12 9 10 9 10 7 7 5 5 3 3 1 1 Pn4 8 6 4 2 8 6 4 2 IO64 IO62 IO60 IO58 IO56 IO54 IO52 IO50 IO48 IO46 IO44 IO42 IO40 IO38 IO36 IO34 IO32 IO30 IO28 IO26 IO24 IO22 IO20 IO18 IO16 IO14 IO12 IO10 IO8 IO6 IO4 IO2 IO34 RP5h 8 9 0 Ω I_O34 I_O34 34 68 34 68 71436 71436-2164 +5V P1 F1 Fuse, 500mA, SMD 1 2 FP5V minismd050-2 H a r d w a r e & S o f t w a r e D e s i g n P g 5 o f 1 4
PIM-Universal-IO is part of the PMC Module family of modular I/O components. The purpose of the PIM-Universal-IO is to facilitate rear panel IO in cpci systems. The Pn4 user IO on the PMC is routed through the host carrier board to the backplane. A PIM Carrier is mounted to the underside of the backplane. The Pn4 IO is passed through the backplane connectors to the PIM Carrier and to the installed PIM devices. When installed the PIM-Universal-IO will recreate the PMC s Pn4 IO in the rear compartment of the chassis [under the backplane]. All of the 64 IO connections are routed to the 68 pin SCSI II connector. The signals are routed through 0 ohm resistors. Alternate values can be implemented if desired to provide signal damping.. Pins 1-64 correspond to pins 1-64 of the Pn4 connector on the PMC. The extra pins are assigned to GND and +5V. The +5V power is fused through a 500 ma re-setable fuse. The PIM specification provides for power and ground references. Internal power and ground planes are used to reference the signals routed across the PIM. The SCSI connector has a variety of mates available to allow ribbon, discrete, premade and customer made cabling solutions. Please contact Dynamic Engineering for custom cables or a custom version of the PIM. H a r d w a r e & S o f t w a r e D e s i g n P g 6 o f 1 4
PMC Module Front Panel IO Interface Pin Assignment The figure below gives the pin assignments for the PIM Module IO Interface. IO_1 IO_35 1 35 IO_2 IO_36 2 36 IO_3 IO_37 3 37 IO_4 IO_38 4 38 IO_5 IO_39 5 39 IO_6 IO_40 6 40 IO_7 IO_41 7 41 IO_8 IO_42 8 42 IO_9 IO_43 9 43 IO_10 IO_44 10 44 IO_11 IO_45 11 45 IO_12 IO_46 12 46 IO_13 IO_47 13 47 IO_14 IO_48 14 48 IO_15 IO_49 15 49 IO_16 IO_50 16 50 IO_17 IO_51 17 51 IO_18 IO_52 18 52 IO_19 IO_53 19 53 IO_20 IO_54 20 54 IO_21 IO_55 21 55 IO_22 IO_56 22 56 IO_23 IO_57 23 57 IO_24 IO_58 24 58 IO_25 IO_59 25 59 IO_26 IO_60 26 60 IO_27 IO_61 27 61 IO_28 IO_62 28 62 IO_29 IO_63 29 63 IO_30 IO_64 30 64 IO_31 VCC 31 65 IO_32 VCC 32 66 IO_33 GND 33 67 IO_34 GND 34 68 FIGURE 1 PIM-UNIVERSAL-IO BEZEL H a r d w a r e & S o f t w a r e D e s i g n P g 7 o f 1 4
PIM Module Pn4 IO Interface Pin Assignment The figure below gives the pin assignments for the PIM Module IO Interface on the PIM-Universal-IO and routed from Pn4. Also see the User Manual for your carrier board for more information. IO_1 IO_2 1 2 IO_3 IO_4 3 4 IO_5 IO_6 5 6 IO_7 IO_8 7 8 IO_9 IO_10 9 10 IO_11 IO_12 11 12 IO_13 IO_14 13 14 IO_15 IO_16 15 16 IO_17 IO_18 17 18 IO_19 IO_20 19 20 IO_21 IO_22 21 22 IO_23 IO_24 23 24 IO_25 IO_26 25 26 IO_27 IO_28 27 28 IO_29 IO_30 29 30 IO_31 IO_32 31 32 IO_33 IO_34 33 34 IO_35 IO_36 35 36 IO_37 IO_38 37 38 IO_39 IO_40 39 40 IO_41 IO_42 41 42 IO_43 IO_44 43 44 IO_45 IO_46 45 46 IO_47 IO_48 47 48 IO_49 IO_50 49 50 IO_51 IO_52 51 52 IO_53 IO_54 53 54 IO_55 IO_56 55 56 IO_57 IO_58 57 58 IO_59 IO_60 59 60 IO_61 IO_62 61 62 IO_63 IO_64 63 64 FIGURE 2 PIM-UNIVERSAL-IO PN4 INTERFACE H a r d w a r e & S o f t w a r e D e s i g n P g 8 o f 1 4
PMC Bezel IO PMC Bezel IO PMC #2 PMC #1 P14 P24 PMC Interface Module PMC Interface Module PIM Bezel IO PIM Bezel IO PMC Carrier Board - cpci Host cpci Backplane PIM Carrier FIGURE 3 PIM-UNIVERSAL-IO SYSTEM DIAGRAM The Figure above shows the relative connections of the PIM installed into the PIM Carrier. The Carrier attached to the rear of the backplane and the host to the front of the backplane. The PMC is attached to the host. The Pn4 IO is routed from the PMC to the PIM to provide the PIM Bezel IO. With the PMC and PIM- Universal-IO combination the Pn4 IO is the same for the 64 IO signals on the two connectors. If the PMC has 1:1 routing between the PMC Bezel IO and the Pn4 connector then the pin definitions will be the same on the PMC Bezel connector and the PIM Bezel Connector. If your PMC has an alternate wiring scheme then H a r d w a r e & S o f t w a r e D e s i g n P g 9 o f 1 4
we can design a corresponding PIM to meet your requirements or you can use the PIM-Universal-IO with an alternate rear IO definition. The SCSI connector may not match the Bezel IO connector either. If you need a custom PIM designed with a different connector and / or compensating routing please contact Dynamic Engineering. [sales@dyneng.com] H a r d w a r e & S o f t w a r e D e s i g n P g 1 0 o f 1 4
Applications Guide Interfacing Some general interfacing guidelines are presented below. Do not hesitate to contact the factory if you need more assistance. Watch the system grounds. All electrically connected equipment should have a fail safe common ground that is large enough to handle all current loads without affecting noise immunity. Power supplies and power consuming loads should all have their own ground wires back to a common point. We provide the components. You provide the system. Safety and reliability can be achieved only by careful planning and practice. Inputs can be damaged by static discharge, by applying voltage less than ground or more than +5 volts with the IP powered. With the IP unpowered, driven input voltages should be kept within.7 volts of ground potential. Terminal Block. We offer a high quality 68 position screw terminal block that directly connects to a SCSI II cable. The terminal block mounts on standard DIN rails. [ http://www.dyneng.com/hdeterm68.html ] H a r d w a r e & S o f t w a r e D e s i g n P g 1 1 o f 1 4
Construction and Reliability PIMs are conceived and engineered for rugged industrial environments. The PIM- UNIVERSAL-IO is constructed out of 0.062 inch thick FR4 material. Through hole and surface mounting of components are used. High insertion and removal forces are required, which assists in the retention of components. The stand-offs should be used to mount the PIM to the PIM carrier to provide added protection against vibration induced intermittent connections. The PMC Module connectors are keyed and shrouded with Gold plated pins on both plugs and receptacles. They are rated at.5 Amp per pin, 200 insertion cycles minimum. These connectors make consistent, correct insertion easy and reliable. The PIM-Universal-IO is entirely passive. Warranty and Repair Dynamic Engineering warrants this product to be free from defects in workmanship and materials under normal use and service and in its original, unmodified condition, for a period of one year from the time of purchase. If the product is found to be defective within the terms of this warranty, Dynamic Engineering s sole responsibility shall be to repair, or at Dynamic Engineering s sole option to replace, the defective product. The product must be returned by the original customer, insured, and shipped prepaid to Dynamic Engineering. All replaced products become the sole property of Dynamic Engineering. Dynamic Engineering s warranty of and liability for defective products is limited to that set forth herein. Dynamic Engineering disclaims and excludes all other product warranties and product liability, expressed or implied, including but not limited to any implied warranties of merchandisability or fitness for a particular purpose or use, liability for negligence in manufacture or shipment of product, liability for injury to persons or property, or for any incidental or consequential damages. Dynamic Engineering s products are not authorized for use as critical components in life support devices or systems without the express written approval of the president of Dynamic Engineering. H a r d w a r e & S o f t w a r e D e s i g n P g 1 2 o f 1 4
Service Policy Before returning a product for repair, verify as well as possible that the suspected unit is at fault. Then call the Customer Service Department for a RETURN MATERIAL AUTHORIZATION (RMA) number. Carefully package the unit, in the original shipping carton if this is available, and ship prepaid and insured with the RMA number clearly written on the outside of the package. Include a return address and the telephone number of a technical contact. For out-of-warranty repairs, a purchase order for repair charges must accompany the return. Dynamic Engineering will not be responsible for damages due to improper packaging of returned items. For service on Dynamic Engineering Products not purchased directly from Dynamic Engineering contact your reseller. Products returned to Dynamic Engineering for repair by other than the original customer will be treated as out-of-warranty. Out of Warranty Repairs Out of warranty repairs will be billed on a material and labor basis. The current minimum repair charge is $50. Customer approval will be obtained before repairing any item if the repair charges will exceed one half of the quantity one list price for that unit. Return transportation and insurance will be billed as part of the repair and is in addition to the minimum charge. For Service Contact: Customer Service Department Dynamic Engineering 435 Park Dr. Ben Lomond, CA 95005 831-336-8891 831-336-3840 fax e-mail support@dyneng.com H a r d w a r e & S o f t w a r e D e s i g n P g 1 3 o f 1 4
Specifications Carrier Connector: Bezel Connector: IO: PMC Pn4 connector SCSI II connector with latch-blocks standard 64 IO routed plus fused power and ground connections. 0Ω series resistors in signal path between Pn4 and P1. Other resister values available. Order Information The PIM-Universal-IO board has standard configurations. http://www.dyneng.com/pim_universal_io.html PIM-Universal-IO PIM with SCSI II latch-block style connector Also available with screw terminal connector by special order. Alternate series resistor values available by special request. Tools for PIM-UNIVERSAL-IO SCSI Cables http://www.dyneng.com/hdecabl68.html HDEterm68 SCSI II cable interface to 68 screw terminals. Comes with DIN rail mounting capability. http://www.dyneng.com/hdeterm68.html All information provided is Copyright Dynamic Engineering H a r d w a r e & S o f t w a r e D e s i g n P g 1 4 o f 1 4