ZALMAN TNN 300 User Manual

English

English Version

www.zalman.co.kr www.zalmanusa.com

◈ Please read thoroughly before installation.

◈ Visit our website (www.zalman.co.kr) and watch the TNN 300 installation

video first to make your installation easier.

English

TNN 300

▣ Welcome

Congratulations on your purchase of ZALMAN Tech’s TNN 300.

With TNN 300, you have now entered the world of silent computing.

TNN 300 is the ultimate answer to every computer user’s dream of

creating a silent computing environment with total system stability.

▣ Contents

1. Safety Notices

2. Features

3. Specifications

4. Components

5. Compatibility

6. Operational Notes

7. Patents

8. Optional Components

9. Installation Guide

10. Trademarks and Copyright Notice

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4

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10

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17

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1. Safety Notices

TNN 300

1) This unit must be kept away from heat sources and direct sunlight.

2) This unit must be used in a well ventilated environment.

3) This unit should be placed on a flat, level, and solid surface.

4) Always shut down the operating system then disconnect the AC power cable form the AC

outlet and power supply before disassembling.

5) Keep this unit in an upright position when the power is ON.

6) Do not place or spill liquids on this unit.

7) Avoid inserting any objects into the system while it is ON.

8) If this unit is to be transported long distances, place it in the original packing box or a custom

made hard case.

9) Do not drop this unit or subject it to shock while it is in transit.

10) Place the system out of the reach of children.

11) Check the condition of the product and its components before installation. If there is a problem

with the product and/or its components, please contact the retailer for replacement.

◈

Disclaimer

Zalman Tech Co., Ltd. is not responsible for any damages due to

external causes, including but not limited to, improper use, problems

with electrical power, accident, neglect, alteration, repair, improper

installation, or improper testing.

1

Safety Notices

TNN 300 is the latest in the world’s first truly noiseless high-end computer case series,
developed with heatpipe technology, HSC (Heat Source Contact) power technology, HCET (High

Capacity Extrusion Technique), and FMS (Flexible Mounting Structure) design technology by
ZALMAN Tech Co., Ltd. Its reduced weight and size compared to the previous models enhance

user convenience.

The TNN 300’s high quality chassis is anodized and finished in black, blending function with style.

It is ideal for home theater systems, and quiet environments such as bedrooms, educational
facilities, and offices.

1) Complete Silence

The cooling system does not generate any noise because it does not utilize any fans.

Hard drive vibration is absorbed by dampers, and the thick aluminum case contains noise
from emanating out of the case.

2) Stability

①

Fanless System

The majority of heat generated inside the system is

transferred through heatpipes to the heatsink plates,

where it is dissipated via natural convection.

This dramatically reduces the inflow of dust and,

consequently prevents system crashes caused by dust

buildup and fan failures

(fans last around 20,000 to 50,000 hours).

② Environment Friendly System

Large, aluminum heatsink plates silently cool heat-

generating components, such as the CPU, VGA Chipset,

and PSU through natural convection. It is virtually free

of mechanical maintenance and is 100% recyclable.

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Features

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2. Features

TNN 300

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2. Features

TNN 300

5

③

Heat Transfer via Heatpipes

Virtually ever-lasting heatpipes transfer heat away
from the CPU and VGA chipset, preventing system
crashes due to overheating.

- CPU Heatpipes

Heat from the CPU is transferred to the heatsink plate
through 6 heatpipes each 6 millimeters in diameter.
The CPU Block Base is made of pure copper to ensure
the highest cooling performance.

- VGA Card Heatpipes

Heat from the VGA Card is transferred to the heatsink
plate through 3 heatpipes each 6 millimeters in
diameter.

④

Heat Transfer via Rear-mount Thermal Blocks

When the Rear-mount Thermal Blocks are installed on
the back-side of the motherboard in line with the
position of the FETs (Field Effect Transistor) and the
Northbridge chipset, each can lower the FET
temperature by 10 to 30°C (50 to 86°F) and the
Northbridge chipset by 5 to 10°C (41 to 50°F).

CPU Heatpipes

VGA Card Heatpipes

Rear-mount Thermal Blocks

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2. Features

TNN 300

⑤

High-Efficiency Fanless Power Supply

- The power supply uses two high-efficiency

FET components to reduce switching loss at

low input voltages, incorporates Heat

Source Contact (HSC) technology to

eliminate the need for a fan, and has a 10%

higher power conversion efficiency (80%)

rating than conventional power supplies.

- Heat from the power supply is transferred directly to the high-capacity heatsink plates,

where it is dissipated by natural convection. Without the need for cooling fans, the

power supply is free of noise and vibration.

- Noise reduction and enhanced efficiency via resonant circuitry.

- Minimized standby power consumption to less than 3W via Green IC.

- Conventional power supplies tend to have lower output voltage due to line-dropping

phenomenon. The TNN Power Supply extends the output voltage sensors up to the

motherboard connection for +3.3V, +5V, and +12V rails to prevent this, enhancing output

voltage accuracy and assuring system stability.

※

Data above were measured according to INTEL ATX v2.03/ATX12V power supply specs.

Measurement specifications : For each DC output, a bypass made up of one 10μF ceramic

capacitor and one 10μF electrolytic capacitor is connected and measured with an oscilloscope

(input impedance 1MΩ) at a frequency bandwidth of 20MHz. The waveforms may differ under

different measurement conditions.

■ Ripple and Noise Waveforms at DC Outputs

a)+12V1DC

(104mVp-p)

b)+12V2DC

(106mVp-p)

c)+3.3VDC

(42mVp-p)

d)+5VDC

(42mVp-p)

e)+5VSB

(28mVp-p)

f)-12VDC

(82mVp-p)

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2. Features

TNN 300

3) Energy Conservation

The TNN 300 is equipped with a high-efficiency power supply and does not utilize any fans, it

resulting in approximately 10 % less power consumption compared to a conventional

computer system, under the same configuration.

4) User Friendly Design

①

Side-door design with latch.

②

USB 2.0 port and flash memory reader supporting 21 types of cards.

③

Remote control for enabling multimedia system operation and control.

④

Optional high-quality, digital audio amp for building a home theater system.

❶

❷

❸

❹

(Optional)

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3. Specifications

TNN 300

※

Power Supply Electrical Characteristics (Model: TNN350APF-V1)

1) Dimensions (L x W x H) : 330 x 230 x 470 mm

2) Weight : 14.74Kg

3) Power Supply Capacity : 350W

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Specifications

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3. Specifications

TNN 300

※※

Note : Before connecting the output cables to the noiseless power supply, please check the

tags (20-pin, 3-pin) to make sure the correct cables are used.

4) Power Output Cables

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4. Components

TNN 300

4

Components

Right Heatsink Plate

Front Heatsink

Front Plate

ODD/FDD/HDD

Brackets

Card Reader

Top Plate

CPU Cooler Parts

VGA Cooler

Parts

Fanless Power

Supply

Bottom Plate

Left Heatsink Plate

Rear Plate

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4. Components

TNN 300

1) Heatpipe CPU Cooler Parts (1 Pack)

1) For Intel P4 (Socket 478)

2) For Intel Pentium 4 (Socket 775)

3) For AMD AMD64

①

One (1) CPU Block Cover

②

One (1) CPU Block Base

③

One (1) CPU Clip

④

Four (4) PH M4X22 Bolts

⑤

Two (2) Socket 478 Finger Bolts (M3X52)

⑥

Two (2) Socket 478 Clip Supports

⑦

One (1) Socket 775 Clip Support

⑧

One (1) Socket 775 Back Plate

⑨

Two (2) Socket 775 Finger Bolts (M3X49)

⑩

Four (4) PH M3X22 Bolts

⑪

One (1) AMD 64 Back Plate

⑫

Two (2) AMD 64 Finger Bolts (#6-32X40)

⑬

Two (2) AMD 64 Nipples

2) Heatpipe VGA Cooler Parts (1 Pack)

①

One (1) VGA Block A

②

One (1) VGA Block B

③

One (1) VGA Block Cover

④

Four (4) VGA Finger Bolt A (M2.5)

⑤

Eight (8) RAM Heatsinks

⑥

Four (4) VGA Springs

⑦

Four (4) VGA Finger Bolt B (M3)

⑧

One (1) Sheet of Paper Washers

3) Rear-mount Thermal Blocks 4) HDD Bolts (1 Pack)

❶❷

❸❹

❶❷ ❸

❺❻

❼❽❾❿

󱆌󱆍󱆎

❹❺❻❼ ❽

①

One 0(1) Set of RTB1

①

Eight (8) PH#6-32X7 Bolts

②

Eight (8) HDD Dampers

❶❷

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4. Components

TNN 300

Note) Bolt Specs

PH M4X20 : Pan Head, Meter Screw, 4mm in Diameter, 20mm in Length

FH #6-32X8 : Flat Head, Screw #6, 32 Pitches per Inch, 8mm in Length

PH (Pan Head) PWH (Pan-Washer Head) FH (Flat Head) SH (Socket Head)

5) ODD Bolts (1 Pack)

Four (4) PH M3X8 Bolts

6) Motherboard Bolts

(1 Pack)

Nine (9) PWH M3X5 Bolts

7) Door Support Bolt

①

One (1) Door Support Bolt

8) Thermal Grease

①

Thermal Grease 2.5 ml

9) Power Cord (1 Pack)

①

One (1) Power Cord

10)TNN300 User’s Guide

①

TNN 300 One (1)

Copy of User’s Guide

12)Card Reader Driver CD

①

One (1) Card Reader

Driver CD

13) Spare parts

(1 Pack)

Length

Length

Length Length

11 ) Remote Controller Set

①

One (1) Remote Control

②

Two (2) Batteries

③

One (1) Install CD

④

One (1) Copy of iMON &

Multi-Median User’s Guide

❶❷

❸❹

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5. Compatibility

TNN 300

5

Compatibility

(As of Aug. 30, 2005)

1) CPU : CPUs with a Thermal Design Power (TDP) of up to 70W

※※

Note

▶

Most Intel P4 (Socket 775) CPUs have a TDP rating of 70W or greater, so check

the TDP before installation.

▶

When using the latest CPUs, visit the CPU manufacturer’s website to check the

updated information on the CPUs before use.

※※

Note

▶

If the power connector or RAM slot is located in Region A (above the CPU) : Not compatible

due to interference with CPU heatpipes.

▶

If the FETs are located in Region B : Not compatible because FET cooling components

(ZM-RTB1) cannot be installed.

2) Motherboard : microATX Type

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5. Compatibility

TNN 300

3) VGA Card : AGP / PCI Express VGA Cards with Heatsink
Mounting Holes

(As of Aug. 30, 2005)

※※

Note

①

NVIDIA PCX Series VGA Cards are not supported. Replace with a Zalman-recommended

VGA card.

②

If the VGA card does not install properly due to physical incompatibility with the case,

stop installation and replace with a Zalman-recommended VGA card listed on the following

website.(www.zalman.co.kr/product/TNN300.html)

Reference)

Refer to zalman’s website for motherboards, HDDs, and ODDs suitable for building a

TNN 300 system. (www.zalman.co.kr/product/TNN300.html)

Reference)

Heatsink Mounting Hole

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5. Compatibility

TNN 300

※

Reference : Performance Tests

1. Thermal Performance Test Results

2. Power Consumption Test Results

(Room Temperature : 28℃)

TNN 300 System Conventional System

TNN 300 System Conventional System

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5. Compatibility

TNN 300

3. Test Environments

①

Test PC Configurations

②

Fan rpm (@ Full Load)

③

Testing Equipments and Software

▣▣

CPU Loading Program

CPU BURN (K7, High)

▣▣

Measurement Instrument

Personal Daq / 56 (Iotech, Inc.) KIKUSUI PCR 1000L

▣▣

Temperature Measurement Program

DaqView (Iotech, Inc.)

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6. Operational Notes

TNN 300

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Operational Notes

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Patents

1) Recommended Room Temperature : 20~25℃ (Ambient)

Operation in comfortable room temperature is recommended.

2) Precautionary Notes on Booting

When booting the computer, it may automatically power down after an alarm sound is

generated. This is an indication by a system monitoring program that the rotation of the

CPU fan is slow. If this happens, connect the Stock CPU cooler’s fan power cable to

the 3-pin CPU fan connector on the motherboard.

Boot the system and set “CPU Fan Detected” to “Disabled” in the BIOS settings.

Turn the system off, remove the CPU Cooler fan, and reboot.

※※

Note

▶

Some motherboards do not boot if the rotation of the CPU fan is not detected.

There might not be a “CPU Fan Detected” setting in the BIOS setup, but updating the
BIOS could solve this problem. For more information on updating the BIOS, please
refer to your motherboard manufacturer’s website.

▶

When using an Intel motherboard, if you remove the motherboard from an existing
system and attach it to the TNN 300, the system’s Active Monitor may generate an
alarm sound warning that there is no CPU fan. Remove Active Monitor from Add/Remove
Programs applet in Control Panel and reinstall.

◈ Korean Patent Application #04-27563

◈ Korean Patent Application #04-74220

◈ Korean Patent Application #04-82817

◈ Korean Design Application #347413

◈ International patent applications pending in the EU, USA, Japan and 30+ other countries

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8. Optional Components

TNN 300

8

Optional Components

Digital Amp

This product is a high-performance 2-channel digital power amp with 50 W of maximum
output. When used with 4 to 8-ohm speakers, its high quality output surpasses the quality
of conventional consumer audio systems, making it an ideal component for setting up
a home theater system.

1) Features

①

Pop-noise removal circuit

②

Zero white / power noise

③

Auto power conservation mode (activates after 3 minutes of idle input)

④

Output level adjustable with jumpers (0 dB / 3 dB level)

⑤

High quality connectors (ALPS) & high-brightness LEDs (Redx1, Bluex2)

2) Specifications

①

Dimensions (W x H) : 105 X 100 mm

②

Line Input Connectors (2CH) - External: 3.5 mm Stereo Jack

③

Headphone Output (2CH) - External : 3.5 mm Stereo Jack

④

Speaker Output : 4~8Ωper Channel / Connector

⑤

Power Amp Output : 25 Watts / channel @ 4

Ω

⑥

Headphone Amp Output : 250 mWatts / channel @ 16

Ω

⑦

Signal to Noise Ratio : 100dB "(A)" Weighted

⑧

Input Impedance : 50 k

Ω

⑨

Gain : off.~ / + 22 dB max.

⑩

Power Consumption (2 Channels) : Less than 0.5 W @ 14.6 VDC (idle power)

50 W Maximum @ 14.6 VDC (81% power - 4

Ω

)

⑪

Frequency Response : 20 Hz ~ 20 KHz

⑫

Total Harmonic Distortion (THD) : 0.05 %, 13 W / channel @ 4

Ω

3) Components

①

One(1) Digital Amp

②

One(1) Amp Panel

③

Two(2) BH M2.3x6 Bolts

④

Two(2) Jack to Speaker Cable

⑤

One(1) 3.5mm Stereo Cable

⑥

One(1) Headphone Extension Cable

❶

❹❺❻

❷❸

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9. Installation Guide

TNN 300

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Installation Guide

1) Disassembling the TNN 300 Case and Components

①

As shown in the diagram, lay the TNN 300 down on a flat surface and open the left plate.

②

Install the door support bolt.

③

Separate the CPU case block cover and the six CPU heatpipes.

④

Remove the front heatsink and separate the three VGA heatpipes.

⑤

After removing the necessary blocks and heatpipes using a screwdriver, store them

in a safe place.

Left Plate

Bolts (PH M3x15)

CPU Case Block Cover
CPU Heatpipe

Hand Nut

Front Heatsink

VGA Heatpipe

VGA Case Block Cover

Bolts (PH M3x15)

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TNN 300

AMD AMD64 Socket 754/939/940 Motherboard

2) Assembling the CPU Clip Support

※※

Note

Do not use a CPU with a TDP higher than 70W on this product. Most Intel P4 (Socket

775) CPUs have a TDP rating higher than 70W, so check the CPU’s thermal specifications

before installation.

▶ For AMD AMD64 Motherboards

Insert the AMD64 Nipples into the holes on the Retention Frame and fasten the AMD64

Back Plate.

Reference)

For some AMD64 motherboards, attachment methods may resemble the Intel P4 Socket

478 installation instead. In this case, refer to the Intel Socket 478 motherboard instructions.

AMD 64 Nipple

Retention Frame

Hole

M/B

AMD 64 Back Plate

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9. Installation Guide

TNN 300

Intel P4 Socket 478 Motherboard

▶ For Intel P4 Socket 478 Motherboards

Insert the AMD64 Nipples into the holes on the Retention Frame and fasten the AMD64

Back Plate.

▶ For Intel P4 Socket 775 Motherboards

Align the Socket 775 Clip Support and the Socket 775 Back Plate with the mounting holes

on the motherboard and fasten with bolts (PH M3x22).

Retention Guide

※※

Note : The Lever Slot on the Clip Support should be properly oriented on the hinged

side of the Socket Lever when installing.

Socket 478 Clip Support

Bolt(PH M3x22)

Socket 775

Clip Support

Socket 775

Back Plate

Hole

M/B

Socket 775
Clip Support

Lever Hinge

Lever Slot

Socket Lever

Intel P4 Socket 775 Motherboard

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9. Installation Guide

TNN 300

3) Installing the Rear-mount Thermal Blocks

※※

Note

▶

Motherboards, that have a Northbridge chipset with integrated video capability and/or a

fan, are not recommended. If such Northbridge is used, the Rear-mount Thermal Blocks

MUST be installed.

▶

During installation, if there is interference with

other components or the FETs near the CPU

are located in region B, the RTB1’s cannot be

installed. In this case, stop installing and

replace the motherboard with one that is

recommended.

(www.zalman.co.kr/product/TNN300.html)

▶

To prevent short circuiting the motherboard, the

Rear-mount Thermal Blocks must be installed on flat surfaces without bare wires or solder points.

▶

Thermal pads lose adhesiveness once used, so do not touch the pad’s surface with hands.

①

Clean the surface of the points (rear side of the FET and the Northbridge chipset) where the

RTB1s will be attached.

②

Peel off the Film from the Thermal Pad on both ends of the block and stick the block on the

determined location.

Northbridge
Chipset Area

M/B

Film

Thermal Pad

Rea-Mount

Thermal Block

CPU Area

FET Area

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9. Installation Guide

TNN 300

③

Install the motherboard with bolts (PWH M3x5) while taking precautions to avoid

detachment of the RTB1’s.

Bolt (PWH M3x5)

I/O Shield

M/B

M/B Nipple

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9. Installation Guide

TNN 300

※※

Note

▶

The CPU block and the heatpipes can be moved

to a certain extent to accommodate the position

of the CPU. If the CPU is positioned beyond the

installable area, stop assembling and replace the

motherboard with one that is recommended.

(www.zalman.co.kr/product/TNN300.html)

▶

Apply an even, generous quantity of thermal

grease (1mm or 0.04 inches in height) on the

CPU core, and install the CPU block base

(gold colored).

▶

Apply thermal grease on the grooves of the CPU

block base and the CPU case block base, where

the CPU heatpipes make contact.

▶

The CPU case block base already has thermal

grease coated underneath, so it should not be

taken off under any circumstances.

▶

Use a coin or a screwdriver to firmly tighten the CPU finger bolts.

4) Installing the Heatpipe CPU Cooler

Intel P4

Socket 478

TYPE

Appropriate

Installation

Holes

Finger Bolts

To Use

Intel P4

Socket 775

AMD AMD64

Socket 754/939/940

(Inner Holes) (Outer Holes)

Socket 478

Finger Bolts

(M3x52)

Socket 775

Finger Bolts

(M3x49)

AMD64

Finger Bolts

(M3x40)

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9. Installation Guide

TNN 300

Install the Heatpipe CPU Cooler as shown in the diagram.

CPU Finger Bolt

Clip

Bolt(PH M3x15)

CPU Case Block Cover
CPU Heatpipe

M/B

Bolt(PH M4x22)

CPU Block Cover

CPU Block Base

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9. Installation Guide

TNN 300

5) Connecting the Front Panel / USB Connectors

①

Connect the appropriate front panel connector (Power Switch, Reset Switch, Power LED,

HDD LED) to the motherboard’s front panel headers.

②

Connect the remote control USB connector and memory reader USB connector to the

motherboard’s USB ports.

Reference)

1) Refer to the motherboard manual to check the location of the ports and the layout of the header pins.

2) Color Codes

VCC : Red (Yellow), USBD- : White (Orange), USBD+ : Green (Blue), GND : Black

Front Panel Headers

Memory Reader
USB Connectors

Remote Control
USB Connectors

M/B USB Ports

M/B

USB Ports

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9. Installation Guide

TNN 300

6) Installing the Heatpipe VGA Cooler

①

Remove the stock VGA cooler on the VGA card and clean off the exposed contact surface

(VGA chipset and RAM) completely of particles using acetone or alcohol.

②

Peel off the film from the thermal tape on the bottom of the RAM heatsinks and stick the

RAM heatsinks onto the VGA RAM chips.

Thermal Tape

Thermal Tape Film

RAM Heatsink

VGA Chipset

VGA RAM

TYPE VGA Block Base A VGA Block Base B

Block

ATI

NVIDIA

ATI Radeon Series

GeForce 4 Ti Series

GeForce 3 MX Series

-

GeForce 5900 Series

GeForce 6600 Series

※※

Note

▶

If the VGA card interferes with certain components of the case, stop assembling and
replace the card with one that is recommended. (www.zalman.co.kr/product/TNN300.html)

▶

Zalman Tech is not responsible for any damages due to user negligence during the
CPU cooler removal or installation process.

▶

The bonding strength of the thermal tapes reaches 90% after 24 hours of curing.

▶

If you need to reattach the used RAM heatsinks, purchase thermal tapes separately to
ensure strong adhesion.

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9. Installation Guide

TNN 300

③

Apply a thin layer of thermal grease on the VGA chipset.

④

Make sure the VGA block base is level and firmly installed onto the VGA chipset using the

paper washers, the VGA springs, and the VGA finger bolts A(M2.5).

⑤

Apply thermal grease evenly onto the VGA block base and the grooves on the VGA block-F,

and install the VGA card on the motherboard.

※※

Note

▶

Most VGA chipsets on the VGA card have a concave curvature towards the middle and

need more thermal grease at the center.

▶

VGA block-F already has thermal grease applied underneath, so do not separate it under

normal circumstances.

VGA Spring

Paper Washer

VGA Block Base

VGA Chipset

VGA Finger Bolt A (M2.5)

VGA Block-F

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9. Installation Guide

TNN 300

⑥

Install the VGA heatpipes in sequence and fix the VGA block cover over them.

Then, fix the VGA block-H in its place.

※※

Note

▶

VGA cards have VGA chipsets in varying locations. The user may need to modify the VGA

heatpipes to accommodate the location.

▶

If the VGA Heatpipes must bend below the datum line, the VGA Heatpipes will not function

optimally and the VGA chipset may get damaged. Check the alignment before proceeding.

VGA Heatpipe

Datum Line

Datum Line

Bolt(PH M3x15)

VGA Block-H

VGA Heatpipe

VGA Block Cover

VGA Finger Bolt B (M3)

VGA Block Cover

GOOD

BAD

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9. Installation Guide

TNN 300

⑦

Stick the thermal pad on the VGA block-H and install the front heatsink over it.

7) Installing the ODD/HDD

①

Take off the ODD/HDD installation bracket and install the ODD/HDD onto the bracket.

②

Install the bracket with the ODD/HDD on the side of the case.

8) Connecting the Power & Data Cables

①

Check whether the power connector on the motherboard is a 24 pin or 20 pin type connector
and connect the appropriate Motherboard Power Cable.

②

Connect the various power and data cables as needed.

Hand Nut

VGA Block-H

Front Heatsink

ODD (CDROM)

ODD Bracket

Bolt (PH M3X8)

HDD

HDD Damper
HDD Bracket

Bolt (PH #6-32X7)

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9. Installation Guide

TNN 300

9) Installing the Digital Amp (Optional)

①

Remove the Amp Cover and install the Amp Panel on the Rear Plate.

②

Insert the Digital Amp from the inside of the case to the Amp Panel as shown in the diagram

and use the bolts to fasten it on the Amp Block.

※※

Note

▶

Connect only passive speakers (without integrated amp) with 4~8Ωimpedance.

▶

Connecting the PSU's 12V 4-pin connector and an external DC power source at the same

time can damage the amp. Therefore, this product does not come with an external power adapter.

(If you need one, we recommend a 19V 3A SMPS type adaptor.)

▶

If the sound card’s output level is low (50mV or less), the Amp goes into sleep mode.

In this case, set the Amp’s sleep mode jumper to OFF.

▶

Set volume to about 80%, then use the volume control within the OS for adjustments.

AMP Cover

Rear Plate

AMP Block

Digital AMP

Bolt (BH M2.3x6)

AMP Panel

Bolt (PH M3x5)

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9. Installation Guide

TNN 300

③

Connect the Line Out of the sound card to the Line In of the Digital Amp using the stereo cable.

④

Connect the Speaker Outs to the speakers using the Jack to speaker cables.

⑤

Connect the computer power supply’s 4-pin power cable to the Digital Amp’s internal power connector.

Reference)

①

Volume Control

②

Headphone Output

③

Line In

④

Speaker Out (Left, Right)

⑤

External Power Connector (Not Used)

⑥

Internal Power Connector

⑦

Sleep Mode Jumper (Auto Power Saving)

⑧

Gain Mode Jumper(0dB, 3dB / 0dB default)

6

1

2

3

4

4

5

7

8

❸

❹

❺

Line In

Stereo Cable

Jack to Speaker Cable

Speaker Out

33

English

10. Trademarks and Copyright Notice

TNN 300

10

Trademarks and Copyright Notice

All trademarks are the properties of their respective owner’s.

- ZALMAN and TNN are registered trademarks of ZALMAN Tech Co., Ltd.

- Intel, Pentium, and Prescott are registered trademarks of Intel Corporation.

- Microsoft, and Microsoft Windows 95/98/Me/2000/NT/XP are registered trademarks of Microsoft

Corporation.

- AMD, AMD64, and AMD Athlon 64 are registered trademarks of AMD Corporation.

- PS/2, and VGA are registered trademarks of International Business Machines Corporation (IBM).

- NVDIA, GeForce, GeForce2, GeForce3-MX, GeForce-Ti, GeForceFX, GeForce PCX are

registered trademarks of NVIDIA Corporation.

- PCI Express is a registered trademark of PCI-SIG Corporation.

- ATI, and ATI Radeon are registered trademarks of ATI Technologies Inc.

- Powernics is a registered trademark of Powernics Corporation.

- GMC is a registered trademark of G. M. Corporation.

- ASRock is a registered trademark of ASRock Inc.

- Samsung is a registered trademark of Samsung Corporation.

- Seagate is a registered trademark of Seagate Technology LLC.

󳟗󳟗

2005 by Zalman Tech Co., Ltd.

Copying or publishing this user’s guide without consent of Zalman Tech Co., Ltd.

is prohibited.