Transport GT14 B2933 Service Engineer’s Manual
PREFACE Copyright This publication, including all photographs, illustrations, and software, is protected under international copyright laws, with all rights reserved. Neither this manual, nor any material contained herein, may be reproduced without written consent of the manufacturer-. Copyright 2007 Version 1.0 Disclaimer Information contained in this document is furnished by TYAN Computer Corporation and has been reviewed for accuracy and reliability prior to printing.
Federal Communications Commission (FCC) Notice for the USA Compliance Information Statement (Declaration of Conformity Procedure) DoC FCC Part 15: This device complies with part 15 of the FCC Rules Operation is subject to the following conditions: 1) This device may not cause harmful interference, and 2) This device must accept any interference received including interference that may cause undesired operation.
About this Manual This manual provides you with instructions on installing your Transport GT14. This manual is intended for experienced users and integrators with hardware knowledge of personal computers. This manual consists of the following parts Chapter 1: Provides an Introduction to the Transport GT14 B2933 barebones, packing list, describes the external components, gives a table of key components, and provides block diagrams of the system.
SAFETY INFORMATION Before installing and using the Transport GT14, take note of the following precautions: iv – – – Read all instructions carefully. – Only use the power source indicated on the marking label. If you are not sure, contact the Power Company. – The unit uses a three-wire ground cable, which is equipped with a third pin to ground the unit and prevent electric shock. Do not defeat the purpose of this pin.
Table of Contents Chapter 1:Overview 1.1 1.2 1.3 1.4 1.5 About the Transport GT14 B2933 . . . . . . . . . . . . . . . . . . . . . . . . . 1 Product Model. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Unpacking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 About the Product . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.7.1 Key Definition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57 2.7.2 DOS Mode and Windows Mode . . . . . . . . . . . . . . . . . . . . 58 2.7.3 Linux Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 Chapter 3:Replacing Pre-Installed Components 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 3.1.1 Work Area . . . . . . . . . . . . . . . . . . . . . . . . . . .
Chapter 1: Overview 1.1 About the Transport GT14 B2933 Congratulations on your purchase of the TYAN TransportTM GT14 B2933, a highly-optimized rack-mountable barebone system. The Transport GT14 B2933 is designed to support up to 2 AMD® Athlon™ F Opteron™ 2000 1207-pin processors, providing a rich feature set and incredible performance.
1.3 Features Enclosure Front Panel Features • Industry 19” rack-mountable 1U chassis • Supports the following HDD combination: – (1) 3.5” HDD + (1) 2.5” HDD – (2) 3.5” HDD (without PCIE support) – (3) 2.5” HDD (optional) – (4) 2.5” HDD (without PCIE support) (optional) • Dimensions: – With Bezel: D 15.5 x W 17.2 x H 1.7 inch (394x436x43.7mm) – Without Bezel: D 14.4 x W 17.2 x H 1.7 inch (365x436x43.7mm) • I/O: (2) USB 2.
BIOS System Cooling • • • • • • (4) 4028 fans • (1) passive CPU heatsink AMI BIOS on 8Mbit LPC Flash ROM Serial Console Redirect USB boot supported ACPI 2.0 supported PnP, DMI2.0, WfM2.0 power management System Management • SMSC SCH5017 w/ 2xEMC6D103 • 8x4 pin system fan headers with tachometer input and auto fan control • Temperature and voltage monitoring • Watch dog timer • Port 80 code display LED Server Management • TYAN M3291, IPMI 2.
1.4 Unpacking If any items are missing or appear damaged, contact your retailer or browse to TYAN’s Web site for service: http://www.tyan.com. The Web site also provides information on other TYAN products, plus FAQs, compatibility lists, BIOS settings, and more.
Rail Kit Rail kit options: A, B, C The following three rail kits are available to rackmount your GT14 B2933. A. Rail for 4-post rack Sliding Rails x2 Sliding Brackets x4 (Front L-Bracket x2, Rear L-Bracket x2) Mounting Brackets x 4 M4-4L screw x 18pcs M5-8L screw x 10pcs M5-15L screw x 4pcs B.
C. Rail for 4-post rack Inner Rails x2 Post Slide Mounting Brackets x4 Assembled Outer Sliding Rails x2 M4-4L screw x 30pcs M5-8L screw x 10pcs M5-15L screw x 4pcs NOTE: For detailed information on rail kit of C, please contact our sales representative.
1.5 About the Product The following views show you the product. 1.5.1 Front View HDD Access LED LAN2 LED LAN1 LED ID LED Power LED Warning LED Power button LCD buttons ID button LCD Display 2 x USB ports 1.5.
1.5.
1.5.4 Internal View 1 2 3 4 9 8 5 FAN1 FAN2 FAN3 FAN4 6 7 1. 2. 3. 4. 5. M2083 PCI-E Riser card Memory slots EPS Power supply Power connector CPU sockets Chapter 1: Overview 6. Fans (Left to Right: Fan1, Fan2, Fan3, Fan4) 7. Front LED panel 8. 3.5” Hard disk drive bracket 9. 2.
10 100 100 J6 FDD R/A SMDC Interface LPC ROM U29 LINK 1 GBLAN2 Marvell 88E1116 U4 GBLAN1 Marvell 88E1116 U2 NFP3600 NVIDIA USB2.0 port X 2 rear panel USB1 USB2.
1.5.
Jumpers & Connectors Jumper /Connector 12 Function J14~J21 4-pin Fan Connectors with Speed Control J21: FAN1, J20: FAN2, J19: FAN3, J18: FAN4 J17: FAN5, J16: FAN6, J15: FAN7, J14: FAN8 J11 Front Panel Header J6 SMDC Connector J5 Barebone FAN Tachometer Pin Header J12 Front Panel USB2.
1.5.7 FRU List Item Model Number Picture Quantity Description Standard Parts Motherboard S2933G2NR 1 Dual 1207-pin ZIF sockets. Supports up to 2 AMD® F Opteron™ 2000 series processors.
Item Model Number Mounting Ear Kit CEAR-0120 Picture Quantity Description 1 Mounting Ear Kit, for GT14 1 TF-TYAN Front Panel Control Board Cable HS 2X14P/ HS 2X14P, L=250mm (Flat Cable) 1 TF-USB Cable USB 2.0 Cable 2*5P K10P P2.54/2*5P K10P P2.54, L=200mm, GT14 B2933 1 TF-LCM Cable 2.
Item Model Number Picture Quantity Description CRAL-0110 1 GT14 Standard Rail Kit; Rail for 4-post CRBK-0030 1 GT14 Open Rail Kit; Rail for 2-post CRAL-0111 1 GT14 Dual Rail Kit; Rail for 4-post with 2 barebones 1 TF-Cable Assy; Power SATA Cable B4P(F)/ SATA(M)*2, L=60mm/60mm, GT14 B2933 1 TF-Cable Assy; Power Cable B4P(F)/ B4P*2(M), L=120mm/70mm, GT14 B2933 CCBL-046F 1 TF-Cable Assy; Power Cable B4P(F)/B4P*1, S4P*1(M), L=70mm/80mm, GT14 B2933 for M2061 riser card CCBL-0625 1 TF-Cable
Item Model Number 2.
Chapter 2: Setting Up 2.0.1 Before You Begin This chapter explains how to install the CPU, CPU heatsink, memory modules, and hard drives. Instructions on inserting a PCI-E card are also given. Take note of the precautions mentioned in this section when installing your system. 2.0.2 Work Area Make sure you have a stable, clean working environment. Dust and dirt can get into components and cause malfunctions. Use containers to keep small components separated.
2.0.4 Precautions Components and electronic circuit boards can be damaged by discharges of static electricity. Working on a system that is connected to a power supply can be extremely dangerous. Follow the guidelines below to avoid damage to the Transport GT14 or injury to yourself. • Ground yourself properly before removing the top cover of the system. Unplug the power from the power supply and then touch a safely grounded object to release static charge (i.e. power supply case).
2.1 Installing Motherboard Components This section describes how to install components on to the motherboard, including CPU, memory modules and a PCI-E card. 2.1.1 Removing the Top Chassis Cover Follow these instructions to remove the Transport GT14 top chassis cover. 1. Remove the screw on the back side and two on the top of the top chassis cover. 2. Slide the top chassis cover in the direction of arrow. 3. Lift the cover off.
2.1.2 Installing the CPU and Heatsink Follow these instructions to install the CPU and CPU heatsink. 1. Locate the CPU sockets. 2. Remove the CPU socket cover. 3. Pull the CPU lever up to unlock the CPU socket (A). Then open the socket in the direction as shown (B).
4. Place the CPU on the CPU socket, ensuring that pin 1 is located in the right direction. 5. Close the CPU socket cover (A) and press the CPU socket lever down to secure the CPU (B). 6. Place the air duct with heatsink on the top of the CPUs and attach with four screws as shown.
2.1.3 Installing the Memory Follow these instructions to install the memory modules on the motherboard. 1. Locate the memory slots on the motherboard. 2. Press the memory slot locking levers in the direction of the arrows as shown in the following illustration.
3. Align the memory module with the slot. The module has indentations that align with notches in the slots. 4. Insert the memory module into the slot as shown. When inserted properly, the memory slot locking levers lock automatically onto the indentations at the ends of the module. 5. Always install the memory modules starting from the one close to the CPU. Subsequent memory modules must be installed in sequential order. See the population rules described in the following tables.
Refer to the following tables for supported DDR2 populations. (Note: X indicates a populated DIMM slot.) DDR2 DIMM population is always from back to front (black slot first). DIMM slot 64bit-support P1_DIMM1 P1_DIMM3 X X X X X P2_DIMM1 X X P2_DIMM3 X X X X X X X X X X X ❈ Population order for 64-bit mode is DIMM3 first, then DIMM1.
2.1.4 Installing the PCI-E Card Follow these instructions to install a PCI-E card. 1. Remove the screw securing the tab of PCI-E slot from the rear side of your GT14 B2933 system. 2. Pull the tab of PCI-E slot on the rear side in the direction as shown to release the I/O shield. 3. Move the I/O shield to left as shown and then take off the I/O shield.
4. Insert the PCI-E card in the direction of arrows as shown. 5. Push the tab of PCI-E slot on the rear side in the direction as shown to secure the PCI-E card. 6. Secure the tab of PCI-E slot on the rear side with one screw as shown.
2.2 Installing the 3.5” Hard Drive The GT14 chassis kit supports up to two 3.5” SATA hard drives without PCI-E support. One more 3.5” hard drive bracket is also provided in your accessory box. You can install a 3.5” hard drive from either the front or rear of the GT14 chassis. Follow these instructions to install a 3.5” hard drive. 2.2.1 Installing a 3.5” Hard Drive (front location) 1. Remove the screw securing the 3.5” drive bracket in the GT14 chassis. 2.
3. Place a 3.5” hard drive into the drive bracket. 4. Use 4 HDD screws to secure the hard drive. 5. Place the assembled hard drive with bracket in the spot you picked from the GT14 chassis (A) and slide it into place (B). Make sure the hard drive is placed correctly as the indication shown on the chassis.
6. Secure the assembled hard drive with the screw removed in step 1 to the screwhole indicated by “E” in the GT14 chassis. 7. Connect the SATA drive data and power connectors.
2.2.2 Installing a 3.5” Hard Drive (rear location) 1. Remove the M2083 PCI-E riser card from the PCI-E slot on the motherboard. 2. Remove the Hex screw securing the 2.5” drive bracket in the GT14 chassis. 3. Slide the drive tray out (A) and lift the bracket out from the chassis (B).
4. Secure the stand-off screw removed from the “B“ screwhole to the one indicated by “D” in the GT14 chassis as shown. 5. Take out the supplied 3.5” hard drive bracket from the accessory box. 6. Place a 3.5” hard drive into the drive bracket. Use 4 HDD screws to secure the hard drive.
7. Place the assembled hard drive with bracket in the spot you picked the 2.5” hard drive bracket from the GT14 chassis (A) and slide it into place (B). 8. Secure the assembled hard drive with the screw removed in step 2. 9. Connect the SATA drive data and power connectors.
2.3 Installing the 2.5” Hard Drive In addition to the installation of 3.5” hard drive, you can also install a 2.5” hard drive from either the front or rear of the GT14 chassis. Follow these instructions to install an internal SATA hard drive. 2.3.1 Installing a 2.5” Hard Drive (front location) 1. Remove the screw securing the 3.5” drive bracket in the GT14 chassis. 2. Slide the drive tray out (A) and lift the bracket out from the chassis (B).
3. Secure the stand-off screw removed from the “E“ screwhole to the one indicated by “C” in the GT14 chassis as shown. 4. Place a 2.5” hard drive into the 2.5” drive bracket. 5. Use 4 HDD screws to secure the hard drive.
6. Place the assembled hard drive with bracket in the spot you picked the 3.5” hard drive bracket from the GT14 chassis (A) and slide it into place (B). Make sure the hard drive is placed correctly as the indication shown on the chassis. 7. Secure the assembled hard drive with the screw removed in step 1. 8. Connect the SATA drive data and power connectors.
2.3.2 Installing a 2.5” Hard Drive (rear location) 1. Remove the screw securing the 2.5” drive bracket in the GT14 chassis. 2. Slide the drive tray out (A) and lift the bracket out from the chassis (B). 3. Place a 2.5” hard drive into the drive bracket.
4. Use 4 HDD screws to secure the hard drive. 5. Place the assembled hard drive with bracket in the spot you picked from the GT14 chassis (A) and slide it into place (B). Make sure the hard drive is placed correctly as the indication shown on the chassis. 6. Secure the assembled hard drive with the screw removed in step 1.
7. Connect the SATA drive data and power connectors.
2.4 Installing Dual 2.5” Hard Drives (Option) The GT14 chassis kit supports up to four internal SATA hard drives. You can also install dual 2.5” hard drives from either the front or rear of the GT14 chassis. Follow these instructions to install a dual 2.5” internal hard drive. NOTE: To purchase the optional parts of dual 2.5” hard drive brackets and cables, please contact our sales representative. 2.4.1 Installing Dual 2.5” Hard Drives (front location) 1. Remove the screw securing the 3.
3. To proceed with the dual 2.5” hard drives installation, you need to purchase the 2.5” HDD dual bracket kit (CHDT0110) and additional cables. 4. Place the two 2.5” hard drives into the 2.5” drive bracket (dual type). Use 8 HDD screws to secure the hard drives. 5. Remove the stand-off screw from the “E“ screwhole to the one indicated by “C” in the GT14 chassis as shown.
6. Place the assembled hard drives with bracket in the spot you picked the 3.5” hard drive bracket from the GT14 chassis (A) and slide it into place (B). Make sure the hard drive is placed correctly as the indication shown on the chassis. 7. Secure the assembled hard drive with the screw removed in step 1. 8. Take out the CCBL-046D and CCBL-046E cables from the purchased 2.5” HDD dual bracket kit.
9. Connect the two cables as shown. 10. Connect the big 4-pin power connector to the motherboard as shown. 11. Connect the two SATA power connectors to the hard drives. Then connect the hard drives to the motherboard using two supplied SATA cables.
12. Bundle the cables with a cable tie and cut off any excess with a pair of wire cutters.
2.4.2 Installing Dual 2.5” Hard Drives (rear location) 1. Remove the screw securing the 2.5” drive bracket (single type) in the GT14 chassis. 2. Slide the drive tray out (A) and lift the bracket out from the chassis (B). 3. Place the two 2.5” hard drives into the 2.5” drive bracket (dual type). Use 8 HDD screws to secure the hard drives.
4. Place the assembled hard drive with bracket in the spot you picked the 2.5” hard drive bracket (single type) from the GT14 chassis (A) and slide it into place (B). Make sure the hard drive is placed correctly as the indication shown on the chassis. 5. Secure the assembled hard drive with the screw removed in step 1. 6. Take out the CCBL-046D and CCB-046E cables from the purchased 2.5” HDD dual bracket kit.
7. Connect the two cables as shown. 8. (A) Connect the big 4-pin power connector to the motherboard. (B) Connect the two SATA power connectors to the hard drives. (C) Then connect the hard drives to the motherboard using two supplied SATA cables. 9. Bundle the cables with a cable tie and cut off any excess with a pair of wire cutters.
2.5 Rack Mounting After installing the necessary components, the Transport GT14 can be mounted in a rack using the supplied rack mounting kit. The screw types are listed below for your reference.
2.5.1 Installing the Server in a Rack (with Rail kit A) Follow these instructions to mount the GT14 into an industry standard 19" rack. (Rail kit A) NOTE: Before mounting the Transport GT14 in a rack, ensure that all internal components have been installed and that the unit has been fully tested. Maintenance can be performed on the unit while in a rack but it is preferable to install the device in a fully operational condition. Installing the Inner Rails to Chassis 1.
3. Install inner rails to left and right sides of chassis using 1 M4-4L(A) screw for each side.
Installing Outer Rails to the Rack 4. Measure the distance between inner side of the front and rear mounting brackets in the rack. 5. Reserve the distance same as in step 4 on rear racket. Secure the rear bracket to outer rail with 2 M4-4L(A) screws. 6. Secure the outer rails to the rack using 2 brackets and 5 M5-8L(B) screws for each side (2 at front side and 3 at rear side). Secure the mounting brackets from inside, not outside, of the rack.
Rackmounting the Server 7. Draw out the middle rails to the latch position. 8. Lift the chassis and then insert the inner slide rails into the middle rails. 9. Push the chasis in and press the latch key (A). Then push the whole system into the rack(B).
10. Secure the mounting ears of chassis to the rack with one M4-15L(F) screw for each side. NOTE: To avoid injury, it is strongly recommended that two people lift the GT14 into the place while a third person screws it to the rack.
2.5.2 Installing the Server in an Open Rack (with Rail kit B) In addition to rackmounting the GT14 in a 4-post rack, you can also mount it in a 2-post rack. You must use rail kit B to mount the GT14 in this type of rack. 2-post open rack NOTE: Before mounting the Transport GT14 in a rack, ensure that all internal components have been installed and that the unit has been fully tested.
2. Lift the chassis and secure the mounting brackets to the front of rack using 3 M5-8L(D) screws for each side. NOTE: To avoid injury, it is strongly recommended that two people lift the GT14 into the place while a third person screws it to the rack. 3. Locate the three small brackets at the rear of rack as shown. Adjust their positions to fit the mounting brackets to be secured in the following steps.
4. Slide the mounting brackets into the rear of inner rail brackets as shown. 5. Secure the mounting brackets with three M4-4L(E) screws for each side. 6. The GT14 has been mounted to the rack as shown.
2.6 LCD Software Setup 2.6.1 Configuring the System After you have made the network and power connections, you can configure the network settings using the LCD console. Before You Begin Before you begin, make sure that you have the following information ready: • • IP address assigned to the system Subnet mask of your network’ 2.6.2 M1000 Driver Installation for Windows Step 1. Install TYAN TSM program. Step 2. Install M1000 driver for Windows. 2.6.3 M1000 Driver Installation for Linux Step 1.
2.7 LCD Console Here shows the LCD front panel and its four control buttons. 2.7.1 Key Definition 1. Up: Go to the previous selection. 2. Left: Go to the previous level selection. 3. Right (Enter): Go to the next level selection; press again to execute command. 4. Down: Go to the next selection.
2.7.2 DOS Mode and Windows Mode M1000 supports both DOS Mode and Windows Mode. DOS Mode BIOS Info Model Name DOS Mode Peripheral Device CPU Info RAM Info No. 58 Item Screen Display 1 BIOS Info V0.08.B10 memory Init.
Windows Mode Host Name System Nics NIC0 NIC1 Windows Mode Performance CPU Memory Hard Disk Net Interface System Sensors Fan Voltage Temperature Power Ctl Power Down Reboot Item Screen Display Host Name TYAN Computer GT14 B2933 System Nics 1 1.1 NIC0 DHCP IP Address: xx.xx.x.xxx Net Mask: xxx.xxx.xxx.0 Gateway: xxx.xxx.xxx.0 1.2 NIC1 DHCP IP Address: xx.xx.x.xxx Net Mask: xxx.xxx.xxx.0 Gateway: xxx.xxx.xxx.
Item Screen Display Host Name TYAN Computer GT14 B2933 Performance 2 2.1 CPU CPU Usage 2.2 Memory Memory Usage 2.3 Harddisk Disk Usage 2.4 Net Interface NIC0 Flow Speed NIC1 Flow Speed xx% xx.xx% x Bps x Bps System Sensors 3 3.1 Fan System Fan1 System Fan2 System Fan3 System Fan4 3.2 Voltage CPU1 Core Volt CPU2 Core Volt CPU1 DIMM 1.8V CPU2 DIMM 1.8V System Volt 3.3V System Volt 5V 3.3V standby 5V standby +12V for CPU1 +12V for CPU2 3.
2.7.3 Linux Mode Host Name System Nics NIC0 NIC1 Linux Mode Performance CPU Memory Hard Disk Net Interface System Sensors Fan Voltage Temperature Power Ctl Power Down Reboot Item Screen Display Host Name TYAN Computer GT14 B2933 System Nics 1 1.1 NIC0 DHCP IP Address: xx.xx.x.xxx Net Mask: xxx.xxx.xxx.0 Gateway: xxx.xxx.xxx.0 1.2 NIC1 DHCP IP Address: xx.xx.x.xxx Net Mask: xxx.xxx.xxx.0 Gateway: xxx.xxx.xxx.
Item Screen Display Host Name TYAN Computer GT14 B2933 Performance 2 2.1 CPU CPU Usage 2.2 Memory Memory Usage 2.3 Harddisk Disk Usage 2.4 Net Interface NIC0 Flow Speed NIC1 Flow Speed xx% xx.xx% x Bps x Bps System Sensors 3 3.1 Fan System Fan1 System Fan2 System Fan3 System Fan4 3.2 Voltage CPU1 Core Volt CPU2 Core Volt CPU1 DIMM 1.8V CPU2 DIMM 1.8V System Volt 3.3V System Volt 5V 3.3V standby 5V standby +12V for CPU1 +12V for CPU2 3.
Chapter 3: Replacing Pre-Installed Components 3.1 Introduction This chapter explains how to replace pre installed components including the motherboard, LCD module, LED board, cooling fans, and power supply. Take note of the precautions in this section when installing your system. 3.1.1 Work Area Make sure you have a stable, clean working environment. Dust and dirt can get into components and cause malfunctions. Use containers to keep small components separated.
3.1.3 Precautions Components and electronic circuit boards can be damaged by static electricity. Working on a system that is connected to a power supply can be extremely dangerous. Follow the guidelines below to avoid damage to the Transport GT14 or injury to yourself. • Ground yourself properly before removing the top cover of the system. Unplug the power from your computer power supply and then touch a safely grounded object to release static charge (i.e. power supply case).
3.2 Disassembly Flowchart The following flowchart outlines the disassembly procedure.
3.3 Removing the Top Chassis Cover Before replacing any parts you must remove the top chassis cover. Follow these instructions to remove the Transport GT14 top chassis cover. 1. Remove the screw on the back side and two on the top of the top chassis cover. 2. Slide the top chassis cover in the direction of arrow. 3. Lift the cover off.
3.4 Replacing Motherboard Components Follow these instructions to replace motherboard components, including the motherboard. 3.4.1 Disconnecting All Motherboard Cables Before replacing the motherboard or certain components, remove cables connected to the motherboard. Follow these instructions to remove all motherboard cabling. 1. Disconnect power cables and LED cable. LED cable EPS 12V power connectors Main power connector 2.
3.4.2 Removing the Motherboard After removing all of the aforementioned cables, follow these instructions to remove the motherboard from the chassis. 1. Remove the eight screws securing the motherboard to the chassis. 2. Remove the motherboard.
3.5 Replacing the LCD Module and LED Board Follow these instructions to replace the LCD module in your GT14 B2933 system. 1. Remove the chassis front cover as shown. 2. Remove the two screws securing to the LCD module. 3. Disconnect the LCM and control board cables.
4. Remove the four screws on both sides of the LCD module. 5. Remove the LCD front bracket from the LCD module. 6. Remove the two screws from the rear LCD bracket.
7. Remove the three screws securing the LED board to the rear LCD bracket. Remove the LED board. 8. Place a new LCD module in position in the chassis following the above steps in reverse.
3.5.1 M1017 LED Board Features Warning LED LAN1 LED LAN1 LED ID Button HDD Access LED Power Button Power LED ID LED 3.5.
3.6 Replacing the USB Board Follow these instructions to replace the USB board in your GT14 B2933 system. 1. Remove the chassis front cover as shown. 2. Disconnect the USB cable from the USB board. 3. Remove the two screws securing the USB board to separate the USB board from the chassis.
4. Place a new USB board in position in the chassis following the above steps in reverse. 3.6.1 USB Board Features USB 2x5 pin Header USB1 USB2 3.6.
3.7 Replacing the Cooling Fans Follow these instructions to replace the cooling fans in your GT14 B2933 system. 1. Remove the fan cradle holders as shown. 2. Remove the four fan connectors from the motherboard. 3. Remove the fan unit from the chassis.
4. Remove the fan you want to replace in the direction of the arrow from the fan cradle. 5. Replace a new fan into the fan cradle following the above steps in reverse.
3.8 Replacing the Power Supply Follow these instructions to replace the power supply in your GT14 B2933 system. 1. Remove the top chassis cover. See “3.3 Removing the Top Chassis Cover” on page 66 for more details. 2. Detach the power cables from the motherboard. See “3.4.1 Disconnecting All Motherboard Cables” on page 67 for more details. 3. Remove the two screws that secure the power supply to the chassis.
4. Remove the two screws securing the power supply to the chassis. 5. Lift the power supply free from the chassis. 6. Replace a new power supply into the chassis following the above steps in reverse.
Appendix I: BIOS Differences The BIOS of B2933 is similar to the BIOS of S2933. However, there is something different. You may refer to the attached motherboard manual for the complete BIOS information. The difference between B2933 and S2933 is on the submenu “Hardware Health Configuration” under “Advanced” menu. See the following for the differences.
B2933 Advanced/Hardware Health Configuration BIOS Setup Utility Advanced Hardware Health Configuration H/W Health Function Auto FAN Power Control FAN Fail LED Indicator [Enabled] [Enabled] [Enabled] Enables Hardware Health Monitoring Device Hardware Health Event Monitoring X Mainboard Voltages Report CPU1 Temperature Ambient (Near SATA0) Temp Ambient (Near MCP55) Temp :xx ºC/ xxx ºF :xx ºC/ xxx ºF :xx ºC/ xxx ºF System FAN1 Speed System FAN2 Speed System FAN3 Speed System FAN4 Speed :xxxx RPM :xxxx RP
Appendix II: Cable Connection Tables SATA Cable Table 1: GT14 B2933 Model HDD Connect to Motherboard HDD 1 Æ SATA 0 HDD 2 Æ SATA 1 HDD 3 (option) Æ SATA 2 HDD 4 (option) Æ SATA 3 FAN Cable Table 2: System Fan to Motherboard System Fan Connect to Motherboard Fan 1 Æ J21 Fan1 connector Fan 2 Æ J19 Fan3 connector Fan 3 Æ J17 Fan5 connector Fan 4 Æ J15 Fan7 connector Power Supply Cable Table 3: Power Supply to Motherboard Power Supply Connect to Motherboard P1 24-pin power cable
Other Cables Table 4: M1017 Front Panel LED Board Related Cable M1017 Æ Motherboard M1017 LED connector Æ J7 connector Table 5: USB Board Related Cable 82 USB Board Æ Motherboard USB 2x5 pin header Æ J12 connector
Appendix III: Installing the SMDC Card The following provides you with the information on installing M3291 SMDC card into your GT14 chassis. 1. Secure the three stand-off screws to the screwholes indicated by “A1” “A2“, and “A3” in the GT14 chassis as shown. 2. Align M3291 with the secured stand-off screws in step 1. Secure M3291 to the chassis with three screws.
3. Connect the 2x25 pin SMDC cable to M3291 as shown. 4. Connect the other end of SMDC cable to the SMDC connector (J6) on the motherboard.
Appendix IV: Installing the M2061 Riser Card The following provides you with the information on installing the optional M2061 riser card into your GT14 chassis. You need to purchase the M2061riser card and addtional cable. The cable connectors are illustrated as below. A: Small 4-pin connector (Connect to the M2061) C: Big 4-pin connector (Connect to the PSU cable) B: Big 4-pin connector (Connect to the Motherboard) 1.
3. Insert the M2061 riser card to the PCI Express slot (J4) as shown. 4. Connect the other end of power adapter cable to the power supply.
Technical Support If a problem arises with your system, you should first turn to your dealer for direct support. Your system has most likely been configured or designed by them and they should have the best idea of what hardware and software your system contains. Hence, they should be of the most assistance for you.
3. Contact your dealer for help BEFORE calling TYAN. 4. Check the TYAN user group: alt.comp.periphs.mainboard.TYAN Returning Merchandise for Service During the warranty period, contact your distributor or system vendor FIRST for any product problems. This warranty only covers normal customer use and does not cover damages incurred during shipping or failure due to the alteration, misuse, abuse, or improper maintenance of products.