HT1622 RAM Mapping 32´8 LCD Controller for I/O mC Features · · · · · · · · · · Operating voltage: 2.7V~5.2V Built-in RC oscillator 1/4 bias, 1/8 duty, frame frequency is 64Hz Max. 32´8 patterns, 8 commons, 32 segments Built-in internal resistor type bias generator 3-wire serial interface 8 kinds of time base/WDT selection Time base or WDT overflow output Built-in LCD display RAM R/W address auto increment · · · · · · · Two selectable buzzer frequencies (2kHz/4kHz) Power down command reduces power consumption Software configuration feature Data mode and Command mode instructions Three data accessing modes VLCD pin to adjust LCD operating voltage Cascade application General Description feature of the HT1622 make it suitable for multiple LCD applications including LCD modules and display subsystems. Only three lines are required for the interface between the host controller and the HT1622. The HT162X series have many kinds of products that match various applications. HT1622 is a peripheral device specially designed for I/O type mC used to expand the display capability. The max. display segment of the device are 256 patterns (32´8). It also supports serial interface, buzzer sound, Watchdog Timer or time base timer functions. The HT1622 is a memory mapping and multi-function LCD controller. The software configuration Selection Table HT162X HT1620 HT1621 HT1622 HT16220 HT1623 HT1625 HT1626 COM 4 4 8 8 8 8 16 SEG 32 32 32 32 48 64 48 Ö Ö Ö Ö Ö Ö Ö Ö Built-in Osc. Crystal Osc. Ö Ö Ö 1 January 10, 2001 HT1622 Block Diagram D is p la y R A M O S C I C S C o n a n T im C ir c R D W R tro l d in g u it C O M 0 C O M 7 L C D D r iv e r / B ia s C ir c u it D A T A S E G 0 V D D S E G 3 1 V S S V L C D B Z W a tc h d o g T im e r a n d T im e B a s e G e n e r a to r T o n e F re q u e n c y G e n e ra to r B Z IR Q Pin Assignment 2 8 2 7 2 6 2 5 2 3 2 2 2 1 N C 2 0 6 4 6 3 6 2 6 1 6 0 5 9 5 8 5 7 5 6 5 5 5 4 5 3 5 2 2 9 S E G 2 4 S E G S E G S E G S E G 3 0 5 1 5 0 N C N C 3 4 9 4 4 8 5 4 7 6 4 6 7 4 5 1 2 1 2 4 0 1 3 3 9 1 4 3 8 1 5 3 7 1 6 3 6 N C S E S E S E S E S E S E S E S E S E S E S E S E S E 1 7 3 5 N C 1 8 3 4 N C 1 9 3 3 N C 8 4 4 H T 1 6 2 2 6 4 Q F P 9 1 0 1 1 4 3 4 2 4 1 3 2 3 1 3 0 2 9 2 8 2 7 2 6 2 5 2 4 2 3 2 2 2 1 2 0 C O M 1 N C 3 1 S E G S E G S E G S E G S E G S E G S E G C S N C R D W R D A T A V S S O S C I V D D V L C D IR Q B Z N C B Z T 1 T 2 T 3 C O M 0 G 1 9 G 1 8 G 1 7 G 1 6 G 1 5 G 1 4 G 1 3 G 1 2 G 1 1 G 1 0 G 9 G 8 G 7 S E G S E G S E G S E G S E G S E G S E G C O M C O M C O M 6 5 4 3 2 1 0 7 6 5 C O M 4 C O M 3 C O M 2 2 January 10, 2001 HT1622 Pad Assignment S E G 2 9 S E G 2 8 S E G 2 7 S E G 2 6 S E G 2 5 S E G 2 4 S E G 2 3 S E G 2 2 S E G 2 1 S E G 2 0 R D S E G 3 0 1 S E G 3 1 C S 5 4 5 3 5 2 5 1 5 0 4 9 4 8 4 7 4 6 4 5 4 4 4 3 2 W R 3 D A T A 4 4 2 S E G 1 9 4 1 S E G 1 8 4 0 S E G 1 7 3 9 S E G 1 6 3 8 S E G 1 5 3 7 S E G 1 4 V S S 3 6 S E G 1 3 5 3 5 S E G 1 2 O S C I 6 3 4 S E G 1 1 V D D 7 3 3 S E G 1 0 V L C D 8 3 2 S E G 9 IR Q 9 3 1 S E G 8 3 0 S E G 7 (0 ,0 ) B Z 1 0 B Z 1 1 2 3 2 4 2 5 S E G 2 Chip size: 149 ´ 155 (mil) 2 6 2 7 2 8 2 9 S E G 6 2 2 S E G 5 2 1 S E G 4 2 0 S E G 3 1 9 S E G 1 1 8 S E G 0 1 7 C O M 7 1 6 C O M 6 1 5 C O M 1 C O M 5 1 4 C O M 0 C O M 4 1 3 T 3 C O M 3 1 2 C O M 2 T 1 T 2 2 * The IC substrate should be connected to VDD in the PCB layout artwork. 3 January 10, 2001 HT1622 Pad Coordinates Unit: mil Pad No. X Y Pad No. X Y 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 -68.43 -68.43 -68.43 -69.19 -69.36 -69.36 -69.36 -69.36 -69.36 -69.36 -69.36 -69.36 -69.36 -69.36 -69.36 -69.36 -39.23 -32.60 -20.19 -13.56 -1.15 5.48 15.00 21.63 28.26 34.89 41.52 71.78 59.46 52.83 39.14 23.89 16.32 9.69 3.06 -3.57 -16.92 -33.83 -43.52 -50.15 -56.78 -63.41 -70.04 -71.14 -71.14 -71.14 -71.14 -71.14 -71.14 -71.91 -71.91 -71.91 -71.91 -71.91 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 48.15 54.78 69.32 69.32 69.32 69.32 69.32 69.32 69.32 69.32 69.32 69.32 69.32 69.32 69.32 14.19 7.57 0.94 -5.70 -12.32 -18.95 -25.58 -32.22 -38.85 -45.47 -52.10 -58.74 -71.91 -71.91 -10.67 -4.04 2.59 9.22 15.85 22.48 29.11 35.74 42.37 49.00 55.63 62.26 68.89 71.78 71.78 71.78 71.78 71.78 71.78 71.78 71.78 71.78 71.78 71.78 71.78 4 January 10, 2001 HT1622 Pad Description Pad No. 1 Pad Name CS I/O Description I Chip selection input with Pull-high resistor. When the CS is logic high, the data and command read from or written to the HT1622 are disabled. The serial interface circuit is also reset. But if CS is at logic low level and is input to the CS pad, the data and command transmission between the host controller and the HT1622 are all enabled. 2 RD I READ clock input with Pull-high resistor. Data in the RAM of the HT1622 are clocked out on the rising edge of the RD signal. The clocked out data will appear on the data line. The host controller can use the next falling edge to latch the clocked out data. 3 WR I WRITE clock input with Pull-high resistor. Data on the DATA line are latched into the HT1622 on the rising edge of the WR signal. 4 DATA I/O Serial data input/output with Pull-high resistor 5 VSS ¾ Negative power supply, ground 6 OSCI I If the system clock comes from an external clock source, the external clock source should be connected to the OSCI pad. 7 VDD ¾ Positive power supply 8 VLCD I LCD operating voltage input pad 9 IRQ O Time base or Watchdog Timer overflow flag, NMOS open drain output 10, 11 BZ, BZ O 2kHz or 4kHz tone frequency output pair 12~14 T1~T3 I Not connected 15~22 COM0~COM7 O LCD common outputs 23~54 SEG0~SEG31 O LCD segment outputs Absolute Maximum Ratings Supply Voltage..............................-0.3V to 5.5V Storage Temperature.................-50°C to 125°C Input Voltage ................VSS-0.3V to VDD+0.3V Operating Temperature ..............-25°C to 75°C Note: These are stress ratings only. Stresses exceeding the range specified under ²Absolute Maximum Ratings² may cause substantial damage to the device. Functional operation of this device at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability. 5 January 10, 2001 HT1622 D.C. Characteristics Symbol Parameter VDD Operating Voltage IDD1 Operating Current IDD2 Operating Current ISTB Standby Current VIL Input Low Voltage VIH Input High Voltage IOL1 BZ, BZ, IRQ IOH1 BZ, BZ IOL1 DATA IOH1 DATA IOL2 LCD Common Sink Current IOH2 LCD Common Source Current IOL3 LCD Segment Sink Current IOH3 LCD Segment Source Current RPH Pull-high Resistor Ta=25°C Test Conditions Min. Typ. Max. Unit VDD Conditions ¾ ¾ 2.7 3V No load/LCD ON On-chip RC oscillator 5V 3V 5V 3V 5V 3V 5V 3V 5V ¾ 5.2 V ¾ 80 210 mA ¾ 135 415 mA No load/LCD OFF On-chip RC oscillator ¾ 8 30 mA ¾ 20 55 mA No load Power down mode ¾ 1 8 mA ¾ 2 16 mA 0 ¾ 0.6 V DATA, WR, CS, RD DATA, WR, CS, RD 0 ¾ 1.0 V 2.4 ¾ 3 V 4.0 ¾ 5 V 3V VOL=0.3V 0.9 1.8 ¾ mA 5V VOL=0.5V 1.7 3 ¾ mA 3V VOH=2.7V -0.9 -1.8 ¾ mA 5V VOH=4.5V -1.7 -3 ¾ mA 3V VOL=0.3V 200 450 ¾ mA 5V VOL=0.5V 250 500 ¾ mA 3V VOH=2.7V -200 -450 ¾ mA 5V VOH=4.5V -250 -500 ¾ mA 3V VOL=0.3V 15 40 ¾ mA 5V VOL=0.5V 100 200 ¾ mA 3V VOH=2.7V -15 -30 ¾ mA 5V VOH=4.5V -45 -90 ¾ mA 3V VOL=0.3V 15 30 ¾ mA 5V VOL=0.5V 70 150 ¾ mA 3V VOH=2.7V -6 -13 ¾ mA 5V VOH=4.5V 3V 5V DATA, WR, CS, RD 6 -20 -40 ¾ mA 100 200 300 kW 50 100 150 kW January 10, 2001 HT1622 A.C. Characteristics Symbol fSYS1 Parameter System Clock Ta=25°C Test Conditions Conditions VDD 3V On-chip RC oscillator 22 32 40 kHz 24 32 40 kHz ¾ 32 ¾ kHz ¾ 32 ¾ kHz 44 64 80 Hz 48 64 80 Hz ¾ 64 ¾ ¾ ¾ 64 ¾ ¾ ¾ n/fLCD ¾ sec ¾ ¾ 150 kHz ¾ ¾ 300 kHz ¾ ¾ 75 kHz ¾ ¾ 150 kHz ¾ 250 ¾ ns Write mode 3.34 ¾ ¾ Read mode 6.67 ¾ ¾ Write mode 1.67 ¾ ¾ Read mode 3.34 ¾ ¾ ¾ ¾ 120 ¾ ns ¾ ¾ 120 ¾ ns ¾ ¾ 120 ¾ ns ¾ ¾ 100 ¾ ns ¾ ¾ 100 ¾ ns 5V fSYS2 System Clock fLCD1 LCD Frame Frequency fLCD2 LCD Frame Frequency tCOM LCD Common Period fCLK1 Serial Data Clock (WR pin) fCLK2 Serial Data Clock (RD pin) tCS Serial Interface Reset Pulse Width (Figure 3) tCLK WR, RD Input Pulse Width (Figure 1) 3V 5V 3V 5V 3V 5V ¾ 3V 5V 3V 5V ¾ 3V 5V tr, tf Rise/Fall Time Serial Data Clock Width (Figure 1) 3V tsu Setup Time for DATA to WR, RD Clock Width (Figure 2) 3V th Hold Time for DATA to WR, RD, Clock Width (Figure 2) tsu1 Setup Time for CS to WR, RD Clock Width (Figure 3) 3V th1 Hold Time for CS to WR, RD Clock Width (Figure 3) 3V Min. Typ. Max. Unit External clock source On-chip RC oscillator External clock source n: Number of COM Duty cycle 50% Duty cycle 50% CS 5V 5V 3V 5V 5V 5V 7 ms ms January 10, 2001 HT1622 V A L ID D A T A tf W R , R D C lo c k tr 9 0 % 5 0 % 1 0 % tC V tC L K D B D D tsu G N D L K S V W R , R D C lo c k th 1 G N D 1 V 5 0 % F IR S T C lo c k D D G N D D D 5 0 % tsu V 5 0 % Figure 2 tC C S D D G N D th W R , R D C lo c k Figure 1 V 5 0 % D D G N D L A S T C lo c k Figure 3 Functional Description Display memory - RAM structure Time base and Watchdog Timer (WDT) The static display RAM is organized into 64´4 bits and stores the display data. The contents of the RAM are directly mapped to the contents of the LCD driver. Data in the RAM can be acc e s s e d b y t he READ , W RI T E a n d READ-MODIFY-WRITE commands. The following is a mapping from the RAM to the LCD patterns. The time base generator and WDT share the same divided (/256) counter. TIMER DIS/EN/CLR, WDT DIS/EN/CLR and IRQ EN/DIS are independent from each other. Once the WDT time-out occurs, the IRQ pin will remain at logic low level until the CLR WDT or the IRQ DIS command is issued. C O M 7 C O M 6 C O M 5 C O M 3 C O M 4 C O M 2 C O M 1 C O M 0 S E G 0 1 0 S E G 1 3 2 S E G 2 5 4 S E G 3 7 6 S E G 3 1 6 3 6 2 D 3 D 2 D 1 D 0 A d d r D a ta D 3 D 2 D 1 D 0 A d d r e s s 6 B its (A 5 , A 4 , ...., A 0 ) A d d r D a ta D a ta 4 B its (D 3 , D 2 , D 1 , D 0 ) RAM mapping 8 January 10, 2001 HT1622 T im e B a s e T IM E R /2 5 6 C lo c k S o u r c e V C L R T im e r W D T /4 W D T E N /D IS D D Q D C K C L R IR Q E N /D IS IR Q E N /D IS R W D T Timer and WDT configurations The following are the data mode ID and the command mode ID: If an external clock is selected as the source of system frequency, the SYS DIS command turns out invalid and the power down mode fails to be carried out until the external clock source is removed. Operation Buzzer tone output A simple tone generator is implemented in the HT1622. The tone generator can output a pair of differential driving signals on the BZ and BZ which are used to generate a single tone. ID READ Data 110 WRITE Data 101 READ-MODIFY-WRITE Data 101 COMMAND Command 1 0 0 If successive commands have been issued, the command mode ID can be omitted. While the system is operating in a non-successive command or a non-successive address data mode, the CS pin should be set to "1" and the previous operation mode will be reset also. The CS pin returns to "0", a new operation mode ID should be issued first. Command format The HT1622 can be configured by the software setting. There are two mode commands to configure the HT1622 resource and to transfer the LCD display data. Name Mode Command Code Function TONE OFF 0000-1000-X Turn-off tone output TONE 4K 010X-XXXX-X Turn-on tone output, tone frequency is 4kHz TONE 2K 0110-XXXX-X Turn-on tone output, tone frequency is 2kHz 9 January 10, 2001 HT1622 Timing Diagrams READ mode (command code : 1 1 0) C S W R R D D A T A 1 0 1 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 M e m o ry A d d re s s 1 (M A 1 ) D a ta (M A 1 ) 1 1 0 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 M e m o r y A d d r e s s 2 ( M A 2 )D a t a ( M A 2 ) READ mode (successive address reading) C S W R R D D A T A 1 1 0 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D a ta (M A + 1 ) D a ta (M A + 2 ) D a ta (M A + 3 ) M e m o ry A d d re s s (M A ) D a ta (M A ) 10 January 10, 2001 HT1622 WRITE mode (command code : 1 0 1) C S W R D A T A 1 1 0 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 M e m o r y A d d r e s s 1 ( M A 1 )D a t a ( M A 1 ) 1 0 1 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 M e m o r y A d d r e s s 2 ( M A 2 )D a t a ( M A 2 ) WRITE mode (successive address writing) C S W R D A T A 1 0 1 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D a ta (M A + 1 ) D a ta (M A + 2 ) D a ta (M A + 3 ) M e m o ry A d d re s s (M A ) D a ta (M A ) 11 January 10, 2001 HT1622 READ-MODIFY-WRITE mode (command code : 1 0 1) C S W R R D D A T A 1 1 0 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D a ta (M A 1 ) M e m o r y A d d r e s s 1 ( M A 1 )D a t a ( M A 1 ) 1 0 1 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 M e m o r y A d d r e s s 2 ( M A 2 )D a t a ( M A 2 ) EAD-MODIFY-WRITE mode (successive address accessing) C S W R R D D A T A 1 0 1 A 5 A 4 A 3 A 2 A 1 A 0 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D 1 D 2 D 3 D 0 D a ta (M A ) D a ta (M A + 1 ) D a ta (M A + 1 ) D a ta (M A + 2 ) M e m o ry A d d re s s (M A ) D a ta (M A ) 12 January 10, 2001 HT1622 Command mode (command code : 1 0 0) C S W R D A T A 1 0 0 C 8 C 7 C 6 C 5 C 4 C 3 C 2 C 1 C 0 C 8 C 7 C 6 C 5 C 4 C 3 C 2 C 1 C 0 C o m m a n d 1 C o m m a n d ... C o m m a n d i C o m m a n d o r D a ta M o d e Mode (data and command mode) C S W R D A T A C o m m a n d o r D a ta M o d e A d d re s s a n d D a ta C o m m a n d o r D a ta M o d e A d d re s s a n d D a ta C o m m a n d o r D a ta M o d e A d d re s s a n d D a ta R D 13 January 10, 2001 HT1622 Application Circuits C S * V D D R D H T 1 6 2 2 D A T A * V R V L C D W R m C * B Z P ie z o R IR Q B Z C O M 0 ~ C O M 7 S E G 0 ~ S E G 3 1 1 /4 B ia s , 1 /8 D u ty L C D P a n e l Note: The connection of IRQ and RD pin can be selected depending on the requirement of the mC. The voltage applied to VLCD pin must be lower than VDD. Adjust VR to fit LCD display, at VDD=5V, VLCD=4V, VR=15kW±20%. Adjust R (external pull-high resistance) to fit user s time base clock. 14 January 10, 2001 HT1622 Command Summary Name ID Command Code D/C Function Def. READ 1 1 0 A5A4A3A2A1A0D0D1D2D3 D Read data from the RAM WRITE 1 0 1 A5A4A3A2A1A0D0D1D2D3 D Write data to the RAM READMODIFYWRITE 1 0 1 A5A4A3A2A1A0D0D1D2D3 D Read and Write data to the RAM SYS DIS 1 0 0 0000-0000-X C Turn off both system oscillator and Yes LCD bias generator SYS EN 1 0 0 0000-0001-X C Turn on system oscillator LCD OFF 1 0 0 0000-0010-X C Turn off LCD display LCD ON 1 0 0 0000-0011-X C Turn on LCD display TIMER DIS 1 0 0 0000-0100-X C Disable time base output Yes WDT DIS 1 0 0 0000-0101-X C Disable WDT time-out flag output Yes TIMER EN 1 0 0 0000-0110-X C Enable time base output WDT EN 1 0 0 0000-0111-X C Enable WDT time-out flag output TONE OFF 1 0 0 0000-1000-X C Turn off tone outputs CLR TIMER 1 0 0 0000-1101-X C Clear the contents of the time base generator CLR WDT 1 0 0 0000-1111-X C Clear the contents of WDT stage RC 32K 1 0 0 0001-10XX-X C System clock source, on-chip RC oscillator EXT 32K 1 0 0 0001-11XX-X C System clock source, external clock source TONE 4K 1 0 0 010X-XXXX-X C Tone frequency output: 4kHz TONE 2K 1 0 0 0110-XXXX-X C Tone frequency output: 2kHz IRQ DIS 1 0 0 100X-0XXX-X C Disable IRQ output IRQ EN 1 0 0 100X-1XXX-X C Enable IRQ output F1 1 0 0 101X-0000-X C Time base clock output: 1Hz The WDT time-out flag after: 4s F2 1 0 0 101X-0001-X C Time base clock output: 2Hz The WDT time-out flag after: 2s F4 1 0 0 101X-0010-X C Time base clock output: 4Hz The WDT time-out flag after: 1s F8 1 0 0 101X-0011-X C Time base clock output: 8Hz The WDT time-out flag after: 1/2 s 15 Yes Yes Yes Yes January 10, 2001 HT1622 Name ID Command Code D/C Function Def. F16 1 0 0 101X-0100-X C Time base clock output: 16Hz The WDT time-out flag after: 1/4 s F32 1 0 0 101X-0101-X C Time base clock output: 32Hz The WDT time-out flag after: 1/8 s F64 1 0 0 101X-0110-X C Time base clock output: 64Hz The WDT time-out flag after: 1/16 s F128 1 0 0 101X-0111-X C Time base clock output: 128Hz The WDT time-out flag after: 1/32 s TEST 1 0 0 1110-0000-X C Test mode, user don t use. NORMAL 1 0 0 1110-0011-X C Normal mode Yes Yes Note: X : Don t care A5~A0 : RAM address D3~D0 : RAM data D/C : Data/Command mode Def. : Power on reset default All the bold forms, namely 1 1 0, 1 0 1, and 1 0 0, are mode commands. Of these, 1 0 0 indicates the command mode ID. If successive commands have been issued, the command mode ID except for the first command will be omitted. The source of the tone frequency and of the time base/WDT clock frequency can be derived from an on-chip 32kHz RC oscillator or an external 32kHz clock. Calculation of the frequency is based on the system frequency sources as stated above. It is recommended that the host controller should initialize the HT1622 after power on reset, for power on reset may fail, which in turn leads to the malfunctioning of the HT1622. 16 January 10, 2001 HT1622 Holtek Semiconductor Inc. (Headquarters) No.3, Creation Rd. II, Science-based Industrial Park, Hsinchu, Taiwan Tel: 886-3-563-1999 Fax: 886-3-563-1189 Holtek Semiconductor Inc. (Taipei Office) 11F, No.576, Sec.7 Chung Hsiao E. Rd., Taipei, Taiwan Tel: 886-2-2782-9635 Fax: 886-2-2782-9636 Fax: 886-2-2782-7128 (International sales hotline) Holtek Semiconductor (Hong Kong) Ltd. RM.711, Tower 2, Cheung Sha Wan Plaza, 833 Cheung Sha Wan Rd., Kowloon, Hong Kong Tel: 852-2-745-8288 Fax: 852-2-742-8657 Holtek Semiconductor (Shanghai) Inc. 7th Floor, Building 2, No.889, Yi Shan Rd., Shanghai, China Tel: 021-6485-5560 Fax: 021-6485-0313 Holmate Semiconductor, Inc. 48531 Warm Springs Boulevard, Suite 413, Fremont, CA 94539 Tel: 510-252-9880 Fax: 510-252-9885 Copyright Ó 2001 by HOLTEK SEMICONDUCTOR INC. The information appearing in this Data Sheet is believed to be accurate at the time of publication. However, Holtek assumes no responsibility arising from the use of the specifications described. The applications mentioned herein are used solely for the purpose of illustration and Holtek makes no warranty or representation that such applications will be suitable without further modification, nor recommends the use of its products for application that may present a risk to human life due to malfunction or otherwise. Holtek reserves the right to alter its products without prior notification. For the most up-to-date information, please visit our web site at http://www.holtek.com.tw. 17 January 10, 2001