NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL REFACE 1.1. Disclaimer The following documentation, compiled by N.A.T. GmbH (henceforth called N.A.T.), represents the current status of the product´s development. The documentation is updated on a regular basis. Any changes which might ensue, including those necessitated by updated specifications, are considered in the latest version of this documentation.
V1.0 ECHNICAL EFERENCE ANUAL 1.2. About This Document This document is intended to give an overview on the NATIVE-C1’s technical features and functional capabilities. Preface General information about this document Introduction Abstract on the NATIVE-C1’s main functionality and application field...
EFERENCE ANUAL NTRODUCTION The NATIVE-C1 offers the performance benefit of MicroTCA in a space-saving horizontal- mounted 1U height. 6 AMC slots offer users the flexibility to configure for a wide range of applications, enterprise, industrial control, telecom, wireless, and others.
• 1U 19" rack-mountable MTCA platform, 2 Cooling Units - 6 single mid-size NATIVE-C1 AMC payload slots (PM is separate order item) • Filler Panel for NATIVE-C1 or NATIVE-C2, closing the gap between the NATIVE-Filler-B chassis bottom and a full-size AMC, PM, or MCH...
ECHNICAL EFERENCE ANUAL UICK TART To ensure proper functioning of the NATIVE-C1 during its usual lifetime, take the following precautions before handling the board. 3.1. Unpacking Electrostatic discharge, incorrect board installation, and uninstallation can damage circuits or shorten their lifetime. Before touching integrated circuits, ensure to take all required precautions for handling electrostatic devices.
With pushing the hot-swap-handle to “lock”-position, the HS-LED starts blinking and • the IPMI-Controller of the NATIVE-C1 backplane detects the board If the information provided by the module is valid, the NATIVE-C1 backplane enables • payload power and the blue HS-LED turns off Extraction of a hot-swap-capable Module Pull the hot-swap-handle in “unlock”-position...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL The lanes connecting AMC ports 0 – 1 are routed according to IEEE 802.3cb specification to allow 2500GBASE-KX signal transmission at 3.125Gb/s per lane. The lanes connecting AMC ports 4 – 15 are routed according to IEEE 802.3ba (section 84.8 40GBASE-KR4 electrical characteristics) specification to allow 40GBASE-KR4 signal Table 3 –...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Table 9 – JSM Connector – Pin Assignment Driven Driven Signal Mating Function Signal Mating Function on CU on CU MCH 1 AMC 1 Power Power PP_M1 First Payload PP_1 First Payload Module Module Power...
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NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Driven Driven Signal Mating Function Signal Mating Function on CU on CU JTAG RST_PM First First Agent Back- RST_PM First First plane Back- RST_PM First First plane Back- First First plane PS1_M1 PS1_CU First First...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Table 10 – Power Module Connector – Pin Assignment Driven Driven Signal Mating Function Signal Mating Function on CU on CU PP_M1 Power First MCH 1 PP_1 Power First AMC 1 Module Payload Module Payload...
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NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Driven Driven Signal Mating Function Signal Mating Function on CU on CU JTAG First Test Data RST_PM First PM Reset Agent Agent Output Backpla First Geograp RST_PM First PM Reset hical Agent Output Address Backpla...
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NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Driven Driven Signal Mating Function Signal Mating Function on CU on CU EN_12# First Enable EN_11# First Enable Agent Agent AMC 12 AMC 11 EN_M2 First Enable EN_CU2 First Enable Agent MCMC Agent EMMC MCH 2...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Table 11 – Cooling Unit Connector – Pin Assignment Driven Driven Signal Mating Function Signal Mating Function on CU on CU Cooling Last Presence First Logic Unit Ground First Logic First Logic Ground Ground First...
1.0! Figure 5 – Cooling Unit 4.2.1. Front Panel and LEDs The front panel of the NATIVE-C1 Cooling Unit is equipped with four LEDs. The functionality is described in the table below. Figure 6 – Cooling Unit Front Panel...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL 4.2.2. Electrical Specifications Table 13 – Power Supply Parameter Notes Management Voltage Range 3.3 V +/-10% Management Power Current 60 mA Payload Voltage Range 13.4 to 10.5 V Payload Power Current 2.1 A Fan Level 10 (max)
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NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Network Function PICMG Commands 0x0C / 0x0D Name Command Note Get PICMG Properties 0x00 PICMG 3.0 R3.0, Table 3-11 FRU Control 0x04 PICMG 3.0 R3.0, Table 3-27 Get FRU LED Properties 0x05 PICMG 3.0 R3.0, Table 3-29...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Table 15 – Mandatory Sensors Event and Status Sensors These sensors are implemented according to the requirements and specifications of the relevant standards Sensor Name Sensor Number Hot-Swap 0x70 Filter PS 0x71 Temperature Sensors All readings have an accuracy of at least 5% and an offset of -40 °C...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Table 16 – Non-Mandatory Sensors Internal Sensors All readings have an accuracy of at least 5% Sensor Name Sensor Number Resolution Applicable Models MP_3V3 0x03 16mV / bit PP_12V 0x05 64mV / bit Assertion/ Comparison...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL 4.3. Air Filter The NATIVE-C1 is equipped with an Air Filter. Figure 7 – Air Filter Table 17 – Technical Data Parameter Notes Size 1.5” x 6.75” Effective Area 7.5 sq in Initial Airflow Resistance 0.24 inches of water...
ANUAL 4.4. Thermal Performance This chapter describes the NATIVE-C1’s thermal performance. Figure 10 – Slot Impedance 10 to 50 CFM Note: Impedance is higher in the I/O-Zone and Zone D because struts supporting the ends of the cards guides are located in these areas.
1.5 inches of water. The cross section drawing of the NATIVE-C1 below shows 5 zones defined in the AMC spec plus a 6th zone (BP Zone), which exists in MicroTCA systems as there is room for air to flow between the backplane connectors.
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL Figure 14 – Temperature Raise Note: Filler Panel Bay: T-Rise=0°C because of no power dissipation. The figure below illustrates the temperature raise for power distribution shown in the table above in case of a single air mover failure.
Parameter Dimension 18.92” x 1.73” x 9.06” Weight 6.0 lbs. The NATIVE-C1 is compliant with the following standards: EIA-310D, Cabinets, Racks, Panels and Associated Equipment DIN • 41494 P1, Panel Mounting Racks for Electronic Equipments • IEC 60297-1, Dimensions of Mechanical Structures of the 482.6 mm Series, Part 1: •...
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL 5.2. Environmental Specification Table 21 – Operating Temperatures Condition Temperature Load Storage Non-Operating -45°C to +70°C Cold Start -20°C to -5°C Any valid condition Normal Operation -5°C to 45°C 100% Short Term Operation 45°C to 55°C Linear derating to 80% at 55°C...
5.6. Compliance to RoHS Directive According to RoHS-Directive 2017/2102/EU, the NATIVE-C1 complies to EN 50581:2012 Although many of hardware products of N.A.T. are exempted from the RoHS directive it is a declared policy of N.A.T. to provide all products fully compliant to the RoHS directive as soon as possible.
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL 5.7. Compliance to WEEE Directive Directive 2002/95/EC of the European Commission on "Waste Electrical and Electronic Equipment" (WEEE) predicts that every manufacturer of electrical and electronical equipment which is put on the European market has to contribute to the reuse, recycling and other forms of recovery of such waste so as to reduce disposal.
NATIVE-C1 V1.0 ECHNICAL EFERENCE ANUAL 5.9. Compliance to REACH The REACH EU regulation is known to N.A.T. GmbH. N.A.T. did not receive information from their European suppliers of substances of very high concern of the ECHA candidate list. Article 7(2) of REACH is notable as no substances are intentionally being released by NAT products and as no hazardous substances are contained.