AU9226-USB KVM Controller

AU9226

USB KVM Controller

Technical Reference Manual

AU9226

USB KVM Controller

Copyright

Copyright © 1997 - 2007. Alcor Micro, Corp. All Rights Reserved. No part of this data sheet may be reproduced, transmitted, transcribed, stored in a retrieval system or translated into any language or computer language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual or otherwise, without prior written permission from Alcor Micro, Corp.

Trademark Acknowledgements

The company and product names mentioned in this document may be the trademarks or registered trademarks of their manufacturers.

Disclaimer

Alcor Micro, Corp. reserves the right to change this product without prior notice. Alcor Micro, Corp. makes no warranty for the use of its products and bears no responsibility for any error that appear in this document. Specifications are subject to change without prior notice.

Revision History

Date

July 2007 Oct 2007

Revision

1.00W 1.01W

Description

Official release

Modify “3.0 Pin Assignment”

Contact Information:

Taiwan China ShenZhen Office

Alcor Micro, Corp. Rm.2407-08, Industrial Bank Building 4F, No 200 Kang Chien Rd., Nei Hu, No.4013, Shennan Road, Taipei, Taiwan, R.O.C. ShenZhen,China. 518026 Phone: 886-2-8751-1984 Phone: (0755) 8366-9039 Fax: 886-2-2659-7723 Fax: (0755) 8366-9101

Santa Clara Office Los Angeles Office 2901 Tasman Drive, Suite 206 9070 Rancho Park Court Santa Clara, CA 95054 Rancho Cucamonga, CA 91730

USA USA Phone: (408) 845-9300 Phone: (909) 483-8821 Fax: (408) 845-9086 Fax: (909) 944-0464

Web site: http://www.alcormicro.com/

Table of Contents

1. Introduction............................................................1

1.1 Description...................................................................................1 1.2 Features........................................................................................1

2. Application Block Diagram...................................2 3. Pin Assignment......................................................3 4. System Architecture and Reference Design.......7

4.1 AU9226 Block Diagram...............................................................7

5. Hot Key Definition..................................................8

5.1 [Scroll]++[Scroll] mode...............................................................8 5.2 [Caps]++[Caps] mode..................................................................8 5.3 [Num]++[Num] Mode...................................................................9 5.4 [Ctrl]+[Shift] mode (left-hand side)............................................9

6. Electrical Characteristics......................................116.1 Recommended Operating Conditions.......................................11 6.2 General DC Characteristics........................................................11 6.3 DC Electrical Characteristics of 3.3V I/O Cells..........................11 6.4 Crystal Oscillator Circuit Setup for Characterization...............12 6.5 ESD Test Results.........................................................................12 6.6 Latch-Up Test Results.................................................................13

7. Mechanical Information.........................................157. Abbreviations.........................................................16

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List of Figures

Figure 2.1 Block Diagram..................................................................2 Figure 3.1 Pin Assignment Diagram................................................3 Figure 4.1 AU9226 Block Diagram...................................................7 Figure 6.1 Crystal Oscillator Circuit Setup for Characterization...12 Figure 6.2 Latch-Up Test Circuits....................................................14 Figure 7.1 Mechanical Information Diagram...................................15

List of Tables

Table 3.1 Pin Descriptions................................................................4 Table 6.1 Recommended Operating Conditions.............................11 Table 6.2 General DC Characteristics..............................................11 Table 6.3 DC Electrical Characteristics of 3.3V I/O Cells...............11 Table 6.4 ESD Data............................................................................12 Table 6.5 Latch–Up Data...................................................................14

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1. Introduction

1.1 Description

AU9226 is a highly integrated single chip USB KVM controller offering users the possibility of sharing keyboard, mouse and monitor among up to two PCs. Not like traditional PS2 KVM devices, AU9226 uses USB as its upstream and downstream interface to support its driver-free and plug-n-play features, which allow users to easily install and use the KVM.

Typical application of AU9226 is under an environment, in which only one set of monitor, keyboard and mouse is available. Applying such kind of devices in a computing environment will not only result in a centralized control, but also reduce the power and space consumption.

1.2 Features

󰁺 Fully USB v1.1 specification compliant 󰁺 Support USB bus power and device self power 󰁺 Support up to 2 PCs via 2 USB upstream ports 󰁺 Support USB downstream port 1 for USB keyboard 󰁺 Support USB downstream port 2 for USB mouse 󰁺 Support PS2 keyboard 󰁺 Support both “panel button” and “hot key” to switch among PCs 󰁺 Support “auto-scan” mode for users to monitor PCs easily 󰁺 Support audio beep when system switches 󰁺 Support upstream port selected LED indicators for each PC respectively 󰁺 Support phantom keyboard to let user does not need to configure BIOS to turn on “No halt on error” 󰁺 Support 2 different sets of key sequence to switch among PCs (Please see the key definition in the following) 󰁺 Recalls “Caps Lock”, “Num Lock” and “Scroll Lock” keys’ status for each PC automatically 󰁺 Output the monitor selection signals to the external video-switching circuits 󰁺 Support 8-bit MCU interface to provide control from external MCU 󰁺 Support serial MCU interface to provide control from external MCU 󰁺 No need to install device driver under Windows, Macintosh, Linux, FreeBSD and Sun system 󰁺 Support EEPRom to memorize hotkey mode

AU9226 USB KVM Controller V1.01W

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2. Application Block Diagram

Typical application is in a computing environment where it demands a centralized control and space & energy saving is critical.

Figure 2.1 Block Diagram

PC 1PC 2USB cableUSB cableMonitor CableMonitor cableAU9226 KVM Selection (3x)Monitor and Audioswtiching box(Relay device)Port 1Port 2Auto-swtich modedefault button x 1KeyboardPS2 KeyboardAudio DevicesMonitorMouse

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AU9226 USB KVM Controller V1.01W

3. Pin Assignment

The AU9226 is delivered in 48pin LQFP form factor. Documented below is a figure shows signal names of each pin and a table in the following page describes each pin in more details.

Figure 3.1 Pin Assignment Diagram

UP2LEDNUP1LEDNUPUSB2_DMUPUSB2_DPUPUSB1_DMUPUSB1_DPD7D6D5D4D3MONITOREN0484746454443424140393837AVCC136GPO0AVSS235GPO1XTAL1334GPO2XTAL2433D2VCC5V532D1BVCC6AU922631D0BVSS730PS2_DATSWITCHN

829PS2_CLKAUDIOSWITCHN

928SWITCHMODE2BUS_PWRD

1027SWITCHMODE1BEEP1126SWITCHMODE0INTN

1225VCC

131415161718192021222324GNDGNDALECSNRDNDOWNUSB2_DPDOWNUSB2_DMDOWNUSB1_DPDOWNUSB1_DMWRN EXTCPUMODVSS

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Table 3.1 Pin Descriptions

Pin Name

AVCC AVSS XTAL1 XTAL2 VCC5V BVCC BVSS SWITCHN AUDIOSWITCHN BUS_PWRD

BEEP INTN GND GND ALE

Pin #

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

I/O

PWR PWR I O PWR PWR PWR I I I O O I

Description

3.3V analog input power Analog ground 12 MHz crystal input 12 MHz crystal output

5.0V input power from USB port

3.3V output power from internal regulator Ground pin of internal regulator

Button with internal pull-up for switching to next system (0: Enable; 1: Normal)

Audio ON/OFF switch with internal pull-up (1: OFF; 0: ON)

Bus power selection (1: Device Self Power; 0: Bus Power)

Audio output (4 KHz frequency) when system switches

Interrupt signal output to external MCU when SWITCHMODE2='1' and EXTCPUMOD='1' (falling-edge triggered) Ground Ground

When not using external parallel MCU, it should be pulled down. Address latch enable when SWITCHMODE2='1' and EXTCPUMOD='1' (1: AD bus is address; 0: AD bus is data)

Chip enable for the MCU interface when SWITCHMODE2='1' and EXTCPUMOD='1' (0: Enable)

Read strobe for the MCU interface when SWITCHMODE2='1' and EXTCPUMOD='1' (0: Enable) DownPort2 DP DownPort2 DM DownPort1 DP DownPort1 DM

Read strobe for the MCU interface when SWITCHMODE2='1' and EXTCPUMOD ='1' (0: Enable; 1: Normal)

External MCU mode selection (1: Parallel; 0: Serial). Serial is the default mode. Digital ground

AU9226 USB KVM Controller V1.01W

16 17 18 19 20 21 22 23 24

4

CSN RDN DOWNUSB2_DP DOWNUSB2_DM DOWNUSB1_DP DOWNUSB1_DM

WRN EXTCPUMOD

VSS

I I I/O I/O I/O I/O I I PWR

Pin #

25 26

Pin Name

VCC SWITCHMODE0

I/O

PWR I

Description

3.3V digital input power

Switch mode selection (SW0, SW1) for internal hotkey mode when SWITCHMODE2='0' and D2='0', it’s defined as:

(0, 0): [Scroll][Scroll] mode (default) (0, 1): [Caps Lock][Caps Lock] mode (1, 0): [Num Lock][Num Lock] mode

(1, 1): [Ctrl][Shift] mode (left-hand side)

Enable external MCU mode (1: Enable; 0: Disable). Disable is the default setting.

PS2 clock signal (external pull-up required)

PS2 data signal (external pull-up required)

Bit 0 with internal pull-up in address/data bus of MCU interface when SWITCHMODE2='1' and EXTCPUMOD='1'. It also provides alternative functions:

I2C bus SDA signal (slave mode) when SWITCHMODE2='1' and EXTCPUMOD='0'

I2C bus SDA signal (master mode) when SWITCHMODE2='0' and D2='1'

Bit 1 with internal pull-up in address/data bus of MCU interface when SWITCHMODE2='1' and EXTCPUMOD='1'. It also provides alternative functions:

I2C bus SCL signal (slave mode) when SWITCHMODE2='1' and EXTCPUMOD='0'

I2C bus SCL signal (master mode) when SWITCHMODE2='0' and D2='1'

Bit 2 with internal pull-down in address/data bus of MCU interface when SWITCHMODE2='1' and EXTCPUMOD='1'. It also provides alternative functions:

I2C bus address 0 (slave mode) when SWITCHMODE2='1' and EXTCPUMOD='0'

I2C bus master mode enable bit when SWITCHMODE2='0'

General purpose output pin 2 General purpose output pin 1 General purpose output pin 0

Monitor Select : ('0' : Monitor1 Select ; ‘1’ : Monitor2 Select)

Data3 or Address3 when SWITCHMODE2='1' and EXTCPUMOD='1'; I2C slave address1 when SWITCHMODE2='1' and EXTCPUMOD='0';

Data4 or Address4 when SWITCHMODE2='1' and EXTCPUMOD='1'; I2C slave address2 when SWITCHMODE2='1' and EXTCPUMOD='0';

27 28 29 30

SWITCHMODE1 SWITCHMODE2

PS2_CLK PS2_DAT

I I I/O I/O

31 D0 I/O

32 D1 I/O

33 D2 I/O

34 35 36 37 38 39

GPO2 GPO1 GPO0 MONITOREN0

D3 D4

O O O O I/O I/O

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Pin #

40 41 42 43 44 45 46 47 48

Pin Name

D5 D6 D7 UPUSB1_DP UPUSB1_DM UPUSB2_DP UPUSB2_DM UP1LEDN UP2LEDN

I/O

I/O I/O I/O I/O I/O I/O I/O O O

Description

Data5 or Address5 when SWITCHMODE2='1' and EXTCPUMOD='1'

Data6 or Address6 when SWITCHMODE2='1' and EXTCPUMOD='1'

Data7 or Address7 when SWITCHMODE2='1' and EXTCPUMOD='1' Upstream Port 1 DP Upstream Port 1 DM Upstream Port 2 DP Upstream Port 2 DM System 1 LED Indicator System 2 LED Indicator

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AU9226 USB KVM Controller V1.01W

4. System Architecture and Reference Design

Host 14.1 AU9226 Block Diagram

Figure 4.1 AU9226 Block Diagram

Host 2USB Protocol EngineUSB Protocol EngineDownstream PortDownstream PortDownstream Port Data CheckerDownstream Port Data MultiplexorSwitch Detectionport 1: USB Keyboard; port 2: USB Mouse; PS2 port: PS2 Keyboard AU9226 USB KVM Controller V1.01W 7

5. Hot Key Definition

AU9226 supports 2 sets of “Hot Key” to help users to switch PC, rapidly and easily, via hot key sequence defined using keypads on the left hand side of a keyboard.

5.1 [Scroll]++[Scroll] mode

Hot Key Definition

[Scroll] ++ [Scroll] + 1 (note1) [Scroll] ++ [Scroll] + 2 [Scroll] ++ [Scroll] + → or ↓ [Scroll] ++ [Scroll] + ← or ↑ [Scroll] ++ [Scroll] + B [Scroll] ++ [Scroll] + S [Scroll] ++ [Scroll] + S + n [Scroll]++[Scroll]+F1~F8 [Scroll]++[Scroll]+[Caps] [Scroll]++[Scroll]+[Num] [Scroll]++[Scroll]+[Ctrl]

Switch to PC1 Switch to PC2 Switch to Next PC Switch to Previous PC

Beeper ON/OFF (note2)

Auto-scan mode every 10 second. ([ESC] switch to regular key code)

Set Auto-scan rate (note3). ([ESC) switch to regular key code)

Customer define key (note4).

Switch to [Caps]++[Caps] hot key mode Switch to [Num]++[Num] hot key mode Switch to [Ctrl]+[Shift] hot key mode

5.2 [Caps]++[Caps] mode

Hot Key Definition

[Caps]++[Caps]+1 [Caps]++[Caps]+2 [Caps]++[Caps]+→ or ↓ [Caps]++[Caps]+← or ↑

Switch to PC1 Switch to PC2 Switch to Next PC Switch to Previous PC

[Caps]++[Caps]+B Beeper ON/OFF (note2)

Auto-scan mode every 10 second. ([ESC] switch to [Caps]++[Caps]+S

regular key code)

Set Auto-scan rate (note3). ([ESC] switch to regular [Caps]++[Caps]+S + n

key code)

[Caps]++[Caps]+F1~F8 Customer define key (note4) [Caps]++[Caps]+[Scroll] [Caps]++[Caps]+[Num] [Caps]++[Caps]+[Ctrl]

Switch to [Scroll]++[Scroll] hot key mode Switch to [Num]++[Num] hot key mode Switch to [Ctrl]+[Shift] hot key mode

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AU9226 USB KVM Controller V1.01W

5.3 [Num]++[Num] Mode

Hot Key Definition

[Num]++[Num]+1 [Num]++[Num]+2 [Num]++[Num]+→ or ↓ [Num]++[Num]+← or ↑

Switch to PC1 Switch to PC2 Switch to Next PC Switch to Previous PC

[Num]++[Num]+B Beeper ON/OFF (note2)

Auto-scan mode every 10 second. ([ESC] switch to [Num]++[Num]+S

regular key code)

Set Auto-scan rate (note3). ([ESC] switch to regular [Num]++[Num]+S + n

key code)

[Num]++[Num]+F1~F8 Customer define key (note4) [Num]++[Num]+[Scroll] [Num]++[Num]+[Caps] [Num]++[Num]+[Ctrl]

Switch to [Scroll]++[Scroll] hot key mode Switch to [Caps]++[Caps] hot key mode Switch to [Ctrl]+[Shift] hot key mode

5.4 [Ctrl]+[Shift] mode (left-hand side)

Hot Key Definition

[Ctrl]++[Ctrl] [Ctrl + Shift + 1] [Ctrl + Shift + 2] [Ctrl + Shift + → or ↓] [Ctrl + Shift + ← or ↑] [Ctrl + Shift + B] [Ctrl + Shift + S] [Ctrl + Shift + S + n] [Ctrl + Shift + F1~F8] [Ctrl + Shift + Scroll] [Ctrl + Shift + Caps]

Switch to next live PC Switch to PC1 Switch to PC2 Switch to Next PC Switch to Previous PC Beeper ON/OFF (note2)

Auto-scan mode every 10 second. ([ESC] switch to regular key code)

Set Auto-scan rate (note3). ([ESC] switch to regular key code)

Customer define key (note4)

Switch to [Scroll]++[Scroll] hot key mode Switch to [Caps]++[Caps] hot key mode

[Ctrl + Shift + Num] Switch to [Num]++[Num] hot key mode Note 1: “++” means press key rapidly, “[Scroll]++[Scroll]+1” means press “Scroll” twice rapidly and then press “1”. If system receives “Scroll ++ Scroll” command only, system will reset the buffer when it does not receive any input comes after within a defined interval of time (say, 5 seconds).

Note 2: Audible feedback when beeper is ON and keep the device in silent mode when beeper is OFF.

Note 3: n = number from 1 to 9, each represents 5 seconds’ interval latency to 60 seconds correspondingly.

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Auto-scan rate set

【N】number Second

1 5 2 10 3 15 4 20 5 25 6 30 7 35 8 40 9 60

Note 4:

Function key +F1 Function key +F2 Function key +F3 Function key +F4 Function key +F5 Function key +F6 Function key +F7 Function key +F8

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AU9226 USB KVM Controller V1.01W

GPO 2 0 0 0 0 1 1 1 1 GPO 1 0 0 1 1 0 0 1 1 GPO 0 0 1 0 1 0 1 0 1

6. Electrical Characteristics

6.1 Recommended Operating Conditions

Table 6.1 Recommended Operating Conditions

SYMBOL VCCVINTORPTSTG

PARAMETER

Power Supply Input Voltage Operating TemperatureStorage Temperature

MIN

4.75 0 0 -40

TYP

5

MAX

5.25 VCC 85 125

UNITS

V V OC OC

6.2 General DC Characteristics

Table 6.2 General DC Characteristics

SYMBOL IILIIHOZCINCOUTCBID

PARAMETER

Input low current Input high current Tri-state leakage currentInput capacitance Output capacitance Bi-directional buffer

capacitance

CONDITIONS

no pull-up or pull-downno pull-up or pull-down

MIN

-1 -1 -10

TYP MAX UNITS

5 5 5

1 1 10

µA µA µA ρF ρF ρF

6.3 DC Electrical Characteristics of 3.3V I/O Cells

Table 6.3 DC Electrical Characteristics of 3.3V I/O Cells

Limits SYMBOL PARAMETER CONDITIONS UNIT

MINTYP MAXVILVIHVOLVOHRI

Input Low Voltage Input Hight Voltage Output low voltage Output high voltage Input Pull-up/down

resistance

CMOS CMOS IOL=4mA, 16mA IOH=4mA,16mA Vil=0V or Vih=VCC

2.3 2.4

10k/200k

0.9 0.4

11

V V V V KΩ

AU9226 USB KVM Controller V1.01W

6.4 Crystal Oscillator Circuit Setup for Characterization

The following setup was used to measure the open loop voltage gain for crystal oscillator circuits. The feedback resistor serves to bias the circuit at its quiescent operating point and the AC coupling capacitor, Cs, is much larger than C1 and C2.

Figure 6.1 Crystal Oscillator Circuit Setup for Characterization

6.5 ESD Test Results

Test Description: ESD Testing was performed on a Zapmaster system using the Human-Body –Model (HBM) and Machine-Model (MM), according to MIL_STD 883 and EIAJ IC_121 respectively.

󰂄 Human-Body-Model stress devices by sudden application of a high voltage

supplied by a 100 PF capacitor through 1.5 Kohm resistance.

󰂄 Machine-Model stresses devices by sudden application of a high voltage

supplied by a 200 PF capacitor through very low (0 ohm) resistance

Test circuit & condition 󰂄 Zap Interval : 1 second

󰂄 Number of Zaps : 3 positive and 3 negative at room temperature 󰂄 Critera : I-V Curve Tracing

Table 6.4 ESD Data

Model

Vdd, Vss, I/C Vdd, Vss, I/C

Model

HBM MM

S/S

15 15

TARGET

2000V 200V

Results

TBD TBD

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AU9226 USB KVM Controller V1.01W

6.6 Latch-Up Test Results

Test Description: Latch-Up testing was performed at room ambient using an IMCS-4600 system which applies a stepped voltage to one pin per device with all other pins open except Vdd and Vss which were biased to 5 Volts and ground respectively.

Testing was started at 5.0 V (Positive) or 0 V(Negative), and the DUT was biased for 0.5 seconds.

If neither the PUT current supply nor the device current supply reached the predefined limit (DUT=0 mA , Icc=100 mA), then the voltage was increased by 0.1 Volts and the pin was tested again.

This procedure was recommended by the JEDEC JC-40.2 CMOS Logic standardization committee.

Notes:

1. DUT: Device Under Test. 2. PUT: Pin Under Test.

Icc Measurement

m1 Source Pin Pin under under test test V Supply+Untested Input Tied to V supplyTrigger Source DUT GNDVcc Untested Output Open Circuit +Test Circuit : Positive Input/ output Overvoltage /Overcurrent

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Icc MeasurementmA1 SourceV Supply+Untested Input Tiedto V supplyTriggerSourceVccPinundertestDUTGNDUntestedOutput OpenCircuit+

Test Circuit: Negative Input/Output Overvoltage/Overcurrent

Icc MeasurementmAV SupplyUntestedOutput OpenCircuitVccAll Input Tiedto V supply+DUTGND

Supply voltage Test

Figure 6.2 Latch-Up Test Circuits

Model

Voltage

Model Voltage (v)/ Current (mA)S/S Results

11.0 +

5 TBD 11.0 -

200 +

Current 5 TBD 200 -

Vdd-Vxx 9.0 5 TBD

Table 6.5 Latch–Up Data

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AU9226 USB KVM Controller V1.01W

7. Mechanical Information

Figure 7.1 Mechanical Information Diagram

EE1GAUGE PLANEDD1 0.25 SEATING PLANEA1LL1C1A2AbeSYMBOLS MIN. MAX. 1. 2. A -- 1.6 A1 0.05 0.15 A2 1.35 1.45 c1 0.09 0.16 D 9.00 BSC D1 7.00 BSC 3. E 9.00 BSC E1 7.00 BSC e 0.5 BSC b 0.17 0.27 L 0.45 0.75 L1 1 REF JEDEC OUTLINE: MS-026 BBC DIMENSIONS D1 AND E1 DO NOT INCLUDE MOLD PROTRUSION. ALLOWABLE PROTRUSION IS 0.25mm PER SIDE. D1 AND E1 ARE MAXIMUM PLASTIC BODY SIZE DIMENSIONS IMCLUDING MOLD MISMATCH. DIMENSION b DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBAR PROTRUSION SHALL NOT CAUSE THE LEAD WIDTH TO EXCEED THE MAXIMUM b DIMENSION BY MORE THAN 0.08mm AU9226 USB KVM Controller V1.01W 15

7. Abbreviations

In this chapter some of the terms and abbreviations used throughout the technical reference manual are listed as follows.

SIE Serial Interface Engine UTMI USB Transceiver Macrocell Interface

About Alcor Micro, Corp.

Alcor Micro, Corp. designs, develops and markets highly integrated and advanced peripheral semiconductor, and software driver solutions for the personal computer and consumer electronics markets worldwide. We specialize in USB solutions and focus on emerging technology such as USB and IEEE 1394. The company offers a range of semiconductors including controllers for USB hub, integrated keyboard/USB hub and USB Flash memory card reader…etc. Alcor Micro, Corp. is based in Taipei, Taiwan, with sales offices in Taipei, Japan, Korea and California. Alcor Micro is distinguished by its ability to provide innovative solutions for spec-driven products. Innovations like single chip solutions for traditional multiple chip products and on-board voltage regulators enable the company to provide cost-efficiency solutions for the computer peripheral device OEM customers worldwide.

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