DATA SHEET TFT COLOR LCD MODULE NL10276AC30-03 38 cm (15.0 inches), 1024 × 768 pixels, FULL-COLOR, MULTI-SCAN FUNCTION Wide viewing angle DESCRIPTION NL10276AC30-03 is a TFT(thin film transistor) active matrix color liquid crystal display (LCD) comprising amorphous silicon TFT attached to each signal electrode, a driving circuit and a backlight. NL10276AC30-03 has a built-in backlight with an inverter. The 38cm (15.0 inches) diagonal display area contains 1024 × 768 pixels and can display full-color (more than 16 million colors simultaneously). Also, it has multi-scan function. FEATURES • High luminance • Low reflection • Wide viewing angle (with Retardation Film) • Analog RGB signals • Multi-scan function: e.g., XGA, SVGA, VGA, VGA-TEXT, PC-9801, MAC • Incorporated edge type backlight (Two lamps, Inverter) • Lamp holder replaceable (Part No. 150LHS03) APPLICATIONS • Desk-top type of PC • Engineering work station Regarding the use of OSD, please note that there is possibility of conflicts with a patent in Europe and the U.S. Thus, if such conflict might happen when you use OSD, we shall not be responsible for any trouble. Document No. EN0416EJ1V0DS00 (1st edition) Date Published January 1999 P Printed in Japan © 1999 NL10276AC30-03 STRUCTURE AND FUNCTIONS A color TFT (thin film transistor) LCD module is comprised of a TFT liquid crystal panel structure, LSIs for driving the TFT array, and a backlight assembly. The TFT panel structure is created by sandwiching liquid crystal material in the narrow gap between a TFT array glass substrate and a color filter glass substrate. After the driver LSIs are connected to the panel, the backlight assembly is attached to the backside of the panel. RGB (red, green, blue) data signals from a source system is modulated into a form suitable for active matrix addressing by the onboard signal processor and sent to the driver LSIs which in turn addresses the individual TFT cells. Acting as an electro-optical switch, each TFT cell regulates light transmission from the backlight assembly when activated by the data source. By regulating the amount of light passing through the array of red, green, and blue dots, color images are created with clarity. OUTLINE OF CHARACTERISTICS (at room temperature) Display area 304.128 (H) × 228.096 (V) mm Drive system a-Si TFT active matrix. Display colors Full-color Number of pixels 1024 × 768 Pixel arrangement RGB vertical stripe Pixel pitch 0.297 (H) × 0.297 (V) mm Module size 350.0 (H) × 265.0 (V) × 20.0 (D) mm Weight 1400 g (typ.) Contrast ratio 200:1 (typ., perpendicular) Viewing angle (more than the contrast ratio of 10:1) • Horizontal : 55° (typ., left side, right side) • Vertical : 50° (typ., up side), 45° (typ, down side) Designed viewing direction • Wider viewing angle with contrast ratio : Down side (6 o’clock) • Wider viewing angle without image reversal : up side (12 o’clock) • Optimum grayscale (γ = 2.2) Color gamut 42 % (typ., At center, To NTSC) Response time 15 ms (typ.), “white” to “black” Luminance 200 cd/m2 (typ.) : perpendicular Signal system Analog RGB signals, Synchronous signals (Hsync and Vsync), CLK Supply voltage 12 V, 12 V (Logic/LCD driving, Backlight) Backlight Edge light type: Two cold cathode fluorescent lamps with an inverter [Replaceable parts] • Lamp holder : 150LHS03 • Inverter Power consumption 2 : 150PW031 15.6 W (typ.) Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 BLOCK DIAGRAM I/F LCD module R G AMP AIF B Hsync Vsync CLK DESEL CLAMP CPSEL CNTDAT CNTCLK CNTSTB CNTSEL OSDENI OSDRI OSDGI OSDBI ADJSEL CNTSTB2 Timing controller H-driver 3072 lines POWC VDD ON/OFF LCD panel 768 lines V-driver VDDB BRTC BRTH BRTL ACA BRTP PWSEL DC/DC converter H : 1024 × 3 (R, G, B) V : 768 Inverter Backlight GNDB GND Note Frame is not connected to GND and GNDB. Data Sheet EN0416EJ1V0DS00 3 NL10276AC30-03 SPECIFICATIONS GENERAL SPECIFICATIONS Item Contents Unit Module size 350.0 ± 0.6 (H) × 265.0 ± 0.6 (V) × 20.5 (max.) (D) mm Display area 304.128 (H) × 228.096 (V) mm Number of dots 1024 × 3 (H) × 768 (V) dots Pixel pitch 0.297 (H) × 0.297 (V) mm Dot pitch 0.099 (H) × 0.297 (V) mm RGB (Red, Green, Blue) vertical stripe – Full color color 1500 (max.) g Pixel arrangement Display colors Weight ABSOLUTE MAXIMUM RATINGS Parameter Symbol Rating Unit VDD –0.3 to +14 V VDDB –0.3 to +14 V Logic input voltage Vin1 –0.3 to +5.5 V R, G, B input voltage Vin 2 –6.0 to +6.0 V CLK input voltage Vin 3 –7.0 to +7.0 V BRTL input voltage Vin 4 –0.3 to +1.5 V Storage temp. Tst –20 to + 60 °C Operating temp. Top 0 to +50 °C Supply voltage Humidity (no condensation) Ta = 25°C Ta = 25°C VDD = 12 V – Module surface ≤ 95% relative humidity Ta ≤ 40°C ≤ 85% relative humidity 40 < Ta ≤ 50°C Absolute humidity shall not exceed Ta = 50°C, 85% relative humidity level. Note Measured at the display area 4 Remarks Data Sheet EN0416EJ1V0DS00 Ta > 50°C Note NL10276AC30-03 ELECTRICAL CHARACTERISTICS (1) Logic, LCD driving, Backlight (Ta = 25°C) Item Symbol Min. Typ. Max. Unit VDD 11.4 12.0 12.6 V for Logic and LCD driving VDDB 11.4 12.0 12.6 V for backlight Logic input “L” voltage 1 VIL1 0 – 0.6 V for BRTP Logic input “H” voltage 1 VIH1 4.5 – 5.25 V Logic input “L” voltage 2 VIL2 0 – 0.8 V Logic input “H” voltage 2 VIH2 2.2 – 5.25 V Input CLK voltage VICLK 0.6 – 1.0 Vp-p VIDCCLK –4.5 – +4.5 V Logic input “L” current 1 IIL1 –10 – – µA Logic input “H” current 1 IIH1 – – 160 µA Logic input “L” current 2 IIL2 –1400 – – µA Logic input “H” current 2 IIH2 – – 10 µA Logic input “L” current 3 IIL3 –1.0 – – mA Logic input “H” current 3 IIH3 – – 0.8 mA Logic input “L” current 4 IIL4 –1.0 – – mA Logic input “H” current 4 IIH4 – – 10 mA Logic input “L” current 5 IIL5 –10 – – µA Logic input “H” current 5 IIH5 – – 10 µA Supply current IDD – 550 800 mA VDD = 12.0 V IDDB – 750 850 mA VDDB = 12.0 V (Max. luminance) Supply voltage Input DC voltage level Remarks Logic except BRTP CLK Hsync, Vsync CNTSEL, CPSEL, POWC, ADJSEL BRTC, BRTL, ACA, PWSEL BRTP Logic except inputs above Note Note Pixel checkered pattern (2) Video signal (R, G, B) input (Ta = 25°C) Item Maximum amplitude (white - black) DC input level (black) Min. Typ. Max. Unit Remarks 0 (black) 0.7 (white) 0.9 Vp-p Contrast adjustment is needed if the amplitude exceeds 0.7 Vp-p. −3.5 – +3.5 V – (3) CLK input equivalent circuit 1000 pF CLK 510 Ω Data Sheet EN0416EJ1V0DS00 5 NL10276AC30-03 SUPPLY VOLTAGE SEQUENCE (1) Sequence of power supply Voltage Logic signals Note POWC VDD Time 200 ms ≤ 0 ms < 30 ms ≤ 0 ms < Note Synchronous signals, Control signals, CLK. CAUTION Wrong power sequence may cause damage to the module. a) Logic signals (synchronous signals and control signals) should be “0” voltage (V), when VDD is not input. If higher than 0.3 V is input to signal lines, the internal circuit will be damaged. b) LCD module will shut down the power supply of driving voltage to LCD panel internally when one of CLK, Hsync, Vsync is not input more than 90 ms typically. As the display data are unstable in this period, the display is disordered. But the backlight works correctly even in this period. So the backlight ON/OFF should be controlled by BRTC signal. c) The backlight ON/OFF (BRTC signal) should be controlled while logic signals are supplied. The backlight power supply (VDDB) is not related to the power supply sequence. However, unstable data is displayed when the backlight power is turned ON without logic signals. d) Keep POWC signal “L” more than 200 ms after the power supply (VDDB) is input, if POWC signal is controlled. e) Analog RGB input are independent of this power supply sequence. f) 12 V for backlight should be started up within 80 ms, otherwise the protection circuit makes the backlight turn off. 6 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 (2) Ripple of supply voltage Please note that the ripple at the input connector of the module should be within the values shown in this table. If the ripple is beyond these values, the noise may appear on the screen. VDD (for logic and LCD driver) VDDB (for backlight) ≤ 100 mVp-p ≤ 200 mVp-p Acceptable range Note The acceptable range of ripple voltage includes spike noise. Examples of the power supply connection a) Separate the power supply Power VDD Power VDDB b) Put the filter Power Filter VDD Filter VDDB (3) Inverter current wave In the luminance control mode, the rush current below flows into the inverter of the module. The duty cycle varies from 100% through 20% depending on the luminance control level. This might cause the noise on the screen. Please evaluate the appropriate value of the capacitor in the filter to eliminate the noise. Filter Inverter circuit of NL10276AC30-03 Customer’s Power supply (12 V) to VDD Rush current 750 (mA) GND 0 (A) Duty Frequency* Data Sheet EN0416EJ1V0DS00 * Frequency: Vsync frequency × K* * Vsync ≤ 75 Hz: K = 4.6 > 75 Hz: K = 3.6 7 NL10276AC30-03 INTERFACE PIN CONNECTION (1) CN1 Part No. : MRF03-6R-SMT Adaptable socket: MRF03-6PR-SMT (board-to-board type) MRF-03-6P-0.8D (cable type) MRF-03-6P-1.27 (cable type) Supplier : HIROSE ELECTRIC CO., LTD. Pin No. Symbol Pin No. Symbol 1 B 4 Vsync 2 G 5 Hsync 3 R 6 CLK Figure from socket view 1 2 · · · · · · 5 6 (2) CN3 Part No. : IL-Z-15PL-SMTY Adaptable socket: IL-Z-15S-S125C3 Supplier : Japan Aviation Electronics Industry Limited (JAE) Pin No. Symbol Pin No. Symbol 1 VDD 9 GND 2 VDD 10 CNTCLK 3 GND 11 CPSEL 4 GND 12 CLAMP 5 POWC 13 GND 6 CNTSEL 14 N.C. 7 CNTDAT 15 GND 8 CNTSTB Note N.C. (No connection) should be open. 8 Data Sheet EN0416EJ1V0DS00 Figure from socket view 15 14 · · · · 2 1 NL10276AC30-03 (3) CN3 Part No. : DF14A-20P-1.25H Adaptable socket: DF14-20S-1.25C Supplier : HIROSE ELECTRIC CO., LTD Pin No. Symbol Pin No. Symbol 1 GND 11 ADJSEL 2 OSDENI 12 N.C. 3 GND 13 CNTSTB2 4 OSDBI 14 GND 5 GND 15 N.C. 6 OSDGI 16 GND 7 GND 17 N.C. 8 OSDRI 18 N.C. 9 GND 19 N.C. 10 N.C. 20 N.C. Figure from socket view 1 2 · · · · 19 20 Note N.C. (No connection) should be open. (4) CN201 Part No. : IL-Z-11PLI-SMTY Adaptable socket: IL-Z-11S-S125C3 Supplier : Japan Aviation Electronics Industry Limited (JAE) Pin No. Symbol Pin No. Symbol 1 VDDB 7 ACA 2 VDDB 8 BRTC 3 VDDB 9 BRTH 4 GNDB 10 BRTL 5 GNDB 11 N.C. 6 GNDB Figure from socket view 11 10 · · · · 2 1 (5) CN202 Part No. : IL-Z-9PL1-SMTY Adaptable socket: IL-Z-9S-S125C3 Supplier : Japan Aviation Electronics Industry Limited (JAE) Pin No. Symbol Pin No. Symbol 1 GNDB 6 BRTL 2 GNDB 7 BRTP 3 ACA 8 GNDB 4 BRTC 9 PWSEL 5 BRTH Figure from socket view 9 8 · · · · 2 1 Note N.C. (No connection) should be open. Data Sheet EN0416EJ1V0DS00 9 NL10276AC30-03 Caution For CN201 and CN202, pins with an identical symbol are connected inside the module. Do not use both of these pins at the same time. <Rear view> 1 CN1 1 CN202 6 9 1 CN201 15 CN3 11 1 1 CN4 20 10 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 PIN FUNCTION (1/2) Symbol I/O Logic Description CLK Input Positive Dot clock input. (ECL level) This timing-signal is for display data. Hsync Input Negative Horizontal synchronous signal input (TTL level) Vsync Input Negative Vertical synchronous signal input (TTL level) R Input – Red video signal input (0.7 Vp-p, 75 Ω) G Input – Green video signal input (0.7 Vp-p, 75 Ω) B Input – Blue video signal input (0.7 Vp-p, 75 Ω) POWC Input Positive CNTSEL Input – CNTDAT Input Positive Display control data (TTL level) Detail of CNTDAT is mentioned in FUNCTIONS. CNTCLK Input Positive CLK for display control data (TTL level) Detail of CNTCLK is mentioned in FUNCTIONS. CNTSTB Input Positive Latch pulse for display control data (TTL level) Detail of CNTSTB is mentioned in FUNCTIONS. CPSEL Input – CLAMP function select signal “H” or “Open”: Default , “L” : External control CLAMP Input Negative Clamp timing signal of black level (TTL level) This mode works when CPSEL = “L”. ADJSEL Input Positive Contrast, brightness select control signal (TTL level) “H” or “Open”: Default , “L” : External control CNTSTB2 Input Positive Latch pulse2 for display control data Detail of CNTSTB2 is mentioned in FUNCTIONS OSDRI Input – Input OSD-R data Detail is mentioned in OSD FUNCTIONS OSDGI Input – Input OSD-G data Detail is mentioned in OSD FUNCTIONS OSDBI Input – Input OSD-B data Detail is mentioned in OSD FUNCTIONS OSDENI Input Positive Enable signal for OSD Detail is mentioned in OSD FUNCTIONS Power control signal (TTL level) “H” or “Open”: Logic and LCD power are on. “L” : Logic and LCD power are off. When POWC is “L”, serial communication data is cleared. Please set again. Display control signal in case of serial communications. (TTL level) “H” or “Open” : Default , “L” : External control External control is set up by serial communication. Data Sheet EN0416EJ1V0DS00 11 NL10276AC30-03 (2/2) Symbol I/O Logic Description ACA Input Positive Luminance control signal (TTL level) “H” or “Open”: Normal luminance “L” : Low luminance (1/2 of normal luminance) BRTC Input Positive Backlight ON/OFF control signal (TTL level) “H” or “Open” : Backlight ON, “L” : Backlight OFF BRTH Input – Variable resistor control of Voltage control See [Function select] for detail. BRTP Input – Luminance control signal PWSEL Input Positive VDD – – Power supply for Logic and LCD driving +12 V (±5 %) VDDB – – Power supply for backlight. +12 V (±5 %) GND – – Signal ground for Logic and LCD driving (Connect to system ground) GNDB – – Ground for backlight, GNDB is not connected to the frame ground of LCD module. BRTL Select the control of luminance (TTL level) See [Function select] for detail. Note Frame ground, system ground (GND) and backlight ground (GNDB) are not connected in the module. [Function select] BRTP PWSEL Valid “L” Open “H” or “Open” How to adjust Luminance can be controlled by BRTP signal. See OUTSIDE CONTROL FOR LUMINANCE for more detail. Volume Please connect BRTP and BRTL. Voltage Fix BRTH to “0 V” and input proper voltage to BRTL. 1 V: maximum luminance (100%) 0 V: minimum luminance (20%) Note Note The variable resistor for luminance control should be 10 kΩ type, and zero point of the resistor correspond to the minimum of luminance. BRTH BRTL R Maximum luminance (100 %) : R = 10 KΩ Minimum luminance (20 %) : R = 0 Ω 12 Data Sheet EN0416EJ1V0DS00 Mating variable resistor: 10 KΩ ± 5 %, B curve NL10276AC30-03 FUNCTIONS This LCD module has following functions controled by serial data input (table 1) (1) Control Display position (VERTICAL) : See table 3 (2) Control Display position (HORIZONTAL) : See table 6 (3) Control CLK delay : See table 4 (4) Change CLK fall/rise synchronous : See table 5 (5) Contrast control : (6) Sub-Contrast control : (7) Sub-Brightness control : See table 9, 10 and COLOR CONTROL FUNCTION AND GRAPH IMAGE Set up the following items to work the functions above (A) Expansion mode : See table 2 and EXPANSION FUNCTION (B) CLK counts of horizontal period : See table 7 (C) CLK frequency range : See table 8 HOW TO USE THE FUNCTIONS ABOVE When CNTSEL is “L”, the functions ((1)-(4), (A)-(C)) above are valid. (When CNTSEL is “H” or open, default values are valid.) After serial data are transferred, they are latched by CNTSTB. Once the data is latched, the functions (1)-(4), (A)-(C) are effective. When ADJSEL is “L”, functions (5)-(7) are valid. (When ADJSEL is “H” or open, default values are valid.) After serial data are transferred, they are latched by CNTSTB2. Once the data is latched, the functions (5)-(7) are effective. Keep CNTSTB/CNTSTB2 “L” while transferring data. Changing data is allowed when power is on. But display may be disturbed while changing. Turning off backlight using BRTC function is recommended in this period. Data Sheet EN0416EJ1V0DS00 13 NL10276AC30-03 SERIAL COMMUNICATION TIMING AND WAVEFORM CNTDAT INVALID D0 D1 D44 INVALID AD0 AD1 AD11 CNTCLK CNTSTB CNTSTB2 Parameter Symbol Min. Max. Unit CLK pulse-width Twck 50 − ns CLK frequency Fclk − 5 MHz DATA set-up-time Tdst 50 − ns DATA hold-time Tdhl 50 − ns Latch pulse-width Twlp 50 − ns Latch set-up-time Tlst 50 − ns Tr, Tf − 50 ns Rise / fall time Remark CNTCLK CNTDAT CNTSTB, CNTSTB2 CNTXXX SERIAL COMMUNICATION WAVEFORM VIH CNTDAT 50 % VIL Tdst Tdhl Twch CNTCLK 50 % 10 % VIH 90 % VIL Tr Tf T1st Twlp VIH CNTSTB CNTSTB2 50 % VIL 14 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 Table 1. CNTDAT Composition (1/2) DATA DATA name Function D0 VEX3 Expansion mode D1 VEX2 Expansion mode D2 VEX1 Expansion mode D3 VEX0 Expansion mode D4 VD10 Vertical display position (MSB) D5 VD9 Vertical display position D6 VD8 Vertical display position D7 VD7 Vertical display position D8 VD6 Vertical display position D9 VD5 Vertical display position D10 VD4 Vertical display position D11 VD3 Vertical display position D12 VD2 Vertical display position D13 VD1 Vertical display position D14 VD0 Vertical display position (LSB) D15 DELAY6 CLK delay (MSB) D16 DELAY5 CLK delay D17 DELAY4 CLK delay D18 DELAY3 CLK delay D19 DELAY2 CLK delay D20 DELAY1 CLK delay D21 DELAY0 CLK delay (LSB) D22 CKS CLK reverse signal See table 5 D23 HD8 Horizontal display position (MSB) See table 6 D24 HD7 Horizontal display position D25 HD6 Horizontal display position D26 HD5 Horizontal display position D27 HD4 Horizontal display position D28 HD3 Horizontal display position D29 HD2 Horizontal display position D30 HD1 Horizontal display position D31 HD0 Horizontal display position (LSB) D32 HSE10 CLK count of horizontal period (MSB) D33 HSE9 CLK count of horizontal period D34 HSE8 CLK count of horizontal period D35 HSE7 CLK count of horizontal period D36 HSE6 CLK count of horizontal period D37 HSE5 CLK count of horizontal period D38 HSE4 CLK count of horizontal period D39 HSE3 CLK count of horizontal period Data Sheet EN0416EJ1V0DS00 See table 2 See table 3 See table 4 See table 7 15 NL10276AC30-03 Table 1. CNTDAT Composition (continuation) (2/2) DATA DATA name Function D40 HSE2 CLK count of horizontal period D41 HSE1 CLK count of horizontal period D42 HSE0 CLK count of horizontal period (LSB) D43 MOD1 CLK frequency select D44 MOD0 CLK frequency select AD11 DAA0 Color adjust select data (LSB) AD10 DAA1 Color adjust select data AD9 DAA2 Color adjust select data AD8 DAA3 Color adjust select data (MSB) AD7 DAD7 Color adjust data (MSB) AD6 DAD6 Color adjust data AD5 DAD5 Color adjust data AD4 DAD4 Color adjust data AD3 DAD3 Color adjust data AD2 DAD2 Color adjust data AD1 DAD1 Color adjust data AD0 DAD0 Color adjust data (LSB) See table 7 See table 8 See table 10 See table 9 Table 2. Display Mode (VEX3 to VEX0: 4 bit) Vertical magnification Display mode VEX3 VEX2 VEX1 VEX0 0 0 0 0 1 XGA 0 0 0 1 1.25 SVGA 0 0 1 0 1.6 PC98, VGA, TEXT 0 0 1 1 – Prohibit 0 1 0 0 – Prohibit 0 1 0 1 – Prohibit 0 1 1 0 – Prohibit 0 1 1 1 – Prohibit 1 0 0 0 – Prohibit 1 0 0 1 1.2 832 × 624 (MAC) 1 0 1 0 – Prohibit 1 0 1 1 – Prohibit 1 1 0 0 – Prohibit 1 1 0 1 – Prohibit 1 1 1 0 – Prohibit 1 1 1 1 – Prohibit Note When CNTSEL is “H” or “Open”, display mode is fixed to XGA. 16 Data Sheet EN0416EJ1V0DS00 Display image Standard See DISPLAY IMAGE Note NL10276AC30-03 Table 3. Vertical Position (VD10 to VD0: 11 bit) VD10 VD9 VD8 VD7 VD6 VD5 VD4 VD3 VD2 VD1 VD0 V ertical position [H] Note 1 0 0 0 0 0 0 0 0 0 0 0 Prohibit 0 0 0 0 0 0 0 0 0 0 1 Prohibit 0 0 0 0 0 0 0 0 0 1 0 Prohibit 0 0 0 0 0 0 0 0 0 1 1 Prohibit 0 0 0 0 0 0 0 0 1 0 0 4 0 0 0 0 0 0 0 0 1 0 1 5 • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • 1 1 1 1 1 1 1 1 1 0 1 2045 1 1 1 1 1 1 1 1 1 1 0 2046 1 1 1 1 1 1 1 1 1 1 1 2047 Note 2 Notes 1. Horizontal line number for effective VIDEO signal from Vsync-fall is shown in this column. 2. The maximum vertical position is Vsync total. 3. When CNTSEL is “H” or “Open”, vertical position is fixed to 35 [H]. Data Sheet EN0416EJ1V0DS00 17 NL10276AC30-03 Table 4. CLK Delay (DELAY6 to DELAY0: 7 bit) 18 DELAY [6..0] Delay Unit DELAY [6..0] Delay Unit DELAY [6..0] Delay Unit 00H 9.5 01H 9.8 ns 2BH 20.7 ns 56H 32.0 ns ns 2CH 20.9 ns 57H 32.2 ns 02H 10.0 ns 2DH 21.2 ns 58H 32.6 ns 03H 10.3 ns 2EH 21.4 ns 59H 32.9 ns 04H 10.5 ns 2FH 21.7 ns 5AH 33.1 ns 05H 10.8 ns 30H 22.0 ns 5BH 33.4 ns 06H 11.0 ns 31H 22.2 ns 5CH 33.6 ns 07H 11.3 ns 32H 22.58 ns 5DH 33.8 ns 08H 11.5 ns 33H 22.8 ns 5EH 34.1 ns 09H 11.8 ns 34H 23.0 ns 5FH 34.4 ns 0AH 12.1 ns 35H 23.3 ns 60H 34.7 ns 0BH 12.3 ns 36H 23.5 ns 61H 34.9 ns 0CH 12.5 ns 37H 23.8 ns 62H 35.2 ns 0DH 12.8 ns 38H 24.1 ns 63H 35.4 ns 0EH 13.1 ns 39H 24.3 ns 64H 35.7 ns 0FH 13.3 ns 3AH 24.6 ns 65H 36.0 ns 10H 13.6 ns 3BH 24.9 ns 66H 36.2 ns 11H 13.8 ns 3CH 25.1 ns 67H 36.4 ns 12H 14.1 ns 3DH 25.4 ns 68H 36.7 ns 13H 14.4 ns 3EH 25.6 ns 69H 37.0 ns 14H 14.6 ns 3FH 25.9 ns 6AH 37.3 ns 15H 14.9 ns 40H 26.2 ns 6BH 37.5 ns 16H 15.1 ns 41H 26.5 ns 6CH 37.7 ns 17H 15.4 ns 42H 26.7 ns 6DH 38.0 ns 18H 15.7 ns 43H 27.0 ns 6EH 38.2 ns 19H 16.0 ns 44H 27.2 ns 6FH 38.5 ns 1AH 16.2 ns 45H 27.5 ns 70H 38.7 ns 1BH 16.5 ns 46H 27.7 ns 71H 39.0 ns 1CH 16.7 ns 47H 28.0 ns 72H 39.3 ns 1DH 17.0 ns 48H 28.3 ns 73H 39.5 ns 1EH 17.2 ns 49H 28.6 ns 74H 39.7 ns 1FH 17.5 ns 4AH 28.9 ns 75H 40.0 ns 20H 17.7 ns 4BH 29.1 ns 76H 40.3 ns 21H 18.0 ns 4CH 29.4 ns 77H 40.5 ns 22H 18.3 ns 4DH 29.6 ns 78H 40.8 ns 23H 18.5 ns 4EH 29.9 ns 79H 41.1 ns 24H 18.8 ns 4FH 30.1 ns 7AH 41.4 ns 25H 19.0 ns 50H 30.4 ns 7BH 41.6 ns 26H 19.3 ns 51H 30.7 ns 7CH 41.9 ns 27H 19.6 ns 52H 31.0 ns 7DH 42.1 ns 28H 19.9 ns 53H 31.2 ns 7EH 42.4 ns 29H 20.2 ns 54H 31.4 ns 7FH 42.6 ns 2AH 20.4 ns 55H 31.7 ns Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 Notes 1, When CNTSEL is “H” or “Open”, DELAY[6..0] is fixed to 00H. 2. These values are typical at Ta = 25°C. Changing ambient temperature or power supply change the delay. Please set up a preferable display position. See the following references. <1> Variation of CLK delay by temperature drift (for reference). The temperature constant of CLK delay is 0.2 %/°C. Calculated example: In case of delay time is 20 ns at Ta = 25°C; (a) In case Ta rising to 50°C. Increase of delay time → (50°C – 25°C) × 0.002 × 20 ns = +1 ns So, the total delay time is 21 ns at Ta = 50°C. (b) In case Ta falling to 0°C. Decrease of delay time → (0°C – 25°C) × 0.002 × 20 ns = –1 ns So, the total delay time is 19 ns at Ta = 0°C. <2> Variation of CLK delay time between each LCD module (for reference). –10.5 % to +14.4 % MOD setting The upper limit of CLK delay: DELAY [6..0] 0,0 0,1 1,0 1,1 Prohibit 59H 6BH 7FH Table 5. CLK Reverse Signal CKS Function 0 DATA are sampled on rising edge of CLK 1 DATA are sampled on falling edge of CLK Note When CNTSEL is “H” or “Open”, CKS is assumed to be “0”. Data Sheet EN0416EJ1V0DS00 19 NL10276AC30-03 Table 6. Display Horizontal Position (HD8 to HD0: 9 bits) HD8 HD7 HD6 HD5 HD4 HD3 HD2 HD1 HD0 Horizontal position [CLK] Note 1 0 0 0 0 0 0 0 0 0 Prohibit 0 0 0 0 0 0 0 0 1 Prohibit • • • • • • • • • • • • • • • • • • • • 0 0 0 1 1 1 1 1 1 Prohibit 0 0 1 0 0 0 0 0 0 64 0 0 1 0 0 0 0 0 1 65 • • • • • • • • • • • • • • • • • • • • 1 1 1 1 1 1 1 0 1 509 1 1 1 1 1 1 1 1 0 510 1 1 1 1 1 1 1 1 1 511 Notes 1. Number of CLKs from Hsync-fall to effective VIDEO signal is shown here. 2. When CNTSEL is “H” or “Open”, Horizontal position is set to 296 [CLK]. Table 7. CLK Count of Horizontal Period (HSE10 to HSE0: 11 bit) HSE10 HSE 9 HSE 8 HSE 7 HSE 6 HSE 5 HSE 4 HSE 3 HSE 2 HSE 1 HSE 0 CLK count Note 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • 1 1 1 1 1 1 1 1 1 0 1 2045 1 1 1 1 1 1 1 1 1 1 0 2046 1 1 1 1 1 1 1 1 1 1 1 2047 Notes 1. Number of CLKs from Hsync to next Hsync. 2. When CNTSEL is “H” or “Open”, CLK count is set to 1344 [CLK]. 3. Selected CLK count must be identical with that of input signal. Table 8. CLK Frequency Select (MOD1 to MOD0: 2 bit) MOD1 MOD0 CLK frequency [MHz] 0 0 Prohibit 0 1 65 to 80 1 0 50 to 65 1 1 20 to 50 Notes 1. Set up MOD1 and MOD0 complying with input CLK frequency. 2. When CNTSEL is “H” or “Open”, CLK frequency is set to 65 - 80 MHz. 20 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 Table 9. Color Control Data (DAD7 to DAD0: 8 bit) DAD7 DAD6 DAD5 DAD4 DAD3 DAD2 DAD1 DAD0 D/A 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 • • • • • • • • • • • • • • • • • • 0 1 1 1 1 1 1 1 127 1 0 0 0 0 0 0 0 128 1 0 0 0 0 0 0 1 129 • • • • • • • • • • • • • • • • • • 1 1 1 1 1 1 0 1 253 1 1 1 1 1 1 1 0 254 1 1 1 1 1 1 1 1 255 Note 1 Notes 1. Value for the function selected according to table 10. 2. Valid range of D/A depends on the selected function. 3. See Color control function and graph image for more detail. Table 10. Color Adjust Select Data (DAA3 to DAA0: 4 bit) DAA3 DAA2 DAA1 DAD0 Function 0 0 0 0 Prohibit 0 0 0 1 Main contrast 0 0 1 0 Prohibit 0 0 1 1 Prohibit 0 1 0 0 Sub-contrast R 0 1 0 1 Sub-contrast G 0 1 1 0 Sub-contrast B 0 1 1 1 Sub-brightness R 1 0 0 0 Sub-brightness G 1 0 0 1 Sub-brightness B 1 0 1 0 Prohibit 1 0 1 1 Prohibit 1 1 0 0 Prohibit 1 1 0 1 Prohibit 1 1 1 0 Prohibit 1 1 1 1 Prohibit Note See more detail Color control function and graph image. Data Sheet EN0416EJ1V0DS00 21 NL10276AC30-03 EXPANSION FUNCTION HOW TO USE EXPANSION MODE Expansion mode is a function to expand screen. For example, VGA signal has 640 × 480 pixels. But, if the display data can expanded to 1.6 times vertically and horizontally, VGA screen image can be displayed fully on the screen of XGA resolution. This LCD module has the function of expanding vertical direction as shown in Table 1. And expanding horizontal direction is possible by setting input CLK frequency which is equivalent to the magnification. It is necessary to make this CLK outside of this LCD module. The below image is display example, HD and VD is set to most suitable frequency. Please adopt this mode after evaluating display quality, because the appearance of expansion mode is happened to become bad some cases. The followings show display magnifications for each mode. Magnification Input display Number of pixels Vertical XGA 1024 × 768 1 1 SVGA 800 × 600 1.25 1.25 VGA 640 × 480 1.6 1.6 VGA text 720 × 400 1.6 1.4 PC9801 640 × 400 1.6 1.6 MAC 832 × 624 1.2 1.2 Note The horizontal magnification multiples the input clock (CLK). Input CLK = system CLK × horizontal magnification Example In case of XGA and VGA, CLK frequency can be decided as follows. XGA: (system CLK (65 MHz)) × 1.0 = 65 MHz VGA: (system CLK (25.175 MHz)) × 1.6 = 40.28 MHz 22 Horizontal Data Sheet EN0416EJ1V0DS00 Note NL10276AC30-03 SETTING SERIAL DATA Input signal Module serial data setting Horizontal Mode System CLK [MHz] Hsync Vsync [kHz] [Hz] Vertical HSE Count Number [CLK] DSP* Note 1 [CLK] Count Number [H] DSP* Note 1 [H] (A) (B) − (C) HD Calculation formula (A) × Ver.mag. (B) × Hor.mag. = (C) = (C) 65 75 78.75 48.363 56.476 60.023 60.004 70.069 75.029 1344 1328 1312 296 280 272 806 806 800 35 35 31 (A) × 1 (B) × 1 MAC (832 × 624) 57.283 49.725 74.5 1152 288 667 42 (A) × 1.2 (B) × 1.2 SVGA (800 × 600) 36* 40* 50* 49.5* 35.156 37.879 48.077 46.875 56.25 60.317 72.188 75 1024 1056 1040 1056 200 216 184 240 625 628 666 666 24 27 29 24 (A) × 1.25 (B) × 1.25 VGA (640 × 480) 25.175* 31.5* 31.5* 30.24* 31.469 37.861 37.5 35.0 59.94 72.809 75 66.667 800 832 840 864 144 168 184 160 525 520 500 525 35 31 19 42 (A) × 1.6 (B) × 1.6 VGA text (720 × 400) 28.322* 31.5* 31.469 37.927 70.087 85.039 900 936 153 180 449 446 37 45 (A) × 1.4 (B) × 1.4 PC9801 (640 × 400) 21.053* 24.827 56.432 848 144 440 33 (A) × 1.6 (A) × 1.6 XGA (1024 × 768) VD 443 Notes 1. DSP = Display Start Period. DSP is total of “pulse-width” and “back-porch”. 2. HD and VD are approximate value. Set HD and VD in case of adjusting display to the screen center. 3. The pulse-width of Hsync, Vsync and back-porch are the same as XGA-mode. (Standard-mode). 4. HSE see CLK number of table 7. 5. HD see horizontal position of table 6. 6. VD see vertical position of table 3. Data Sheet EN0416EJ1V0DS00 23 NL10276AC30-03 DISPLAY IMAGE 1) SVGA mode (800 × 600) XGA (1024 × 768) Black display area Horizontal : × 1.25 (1000 pixels) Vertical : × 1.25 (750 pixels) 2) VGA mode (640 × 480) XGA (1024 × 768) Horizontal : × 1.6 (1024 pixels) Vertical : × 1.6 (768 pixels) 3) PC9801 mode (640 × 400) XGA (1024 × 768) Black display area Horizontal : × 1.6 (1024 pixels) Vertical : × 1.6 (640 pixels) 4) VGA text mode (720 × 400) XGA (1024 × 768) Black display area Horizontal : × 1.4 (1008 pixels) Vertical : × 1.6 (640 pixels) 5) 832 × 624 MAC mode (832 × 624) XGA (1024 × 768) Black display area Horizontal : × 1.2 (998 pixels) Vertical : × 1.2 (748 pixels) 24 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 COLOR CONTROL FUNCTION AND GRAPH IMAGE This LCD module can adjust the following functions by serial data input (table.1) (1) Main contrast: (2) Sub-contrast R/G/B: See table 9, 10 and Color control function and graph image (3) Sub-brightness R/G/B: (1) Main contrast This function adjusts R/G/B contrast at the same time. Contrast control the amplitude of input video signal. Default value : 128 Valid range : 78 to 198 Contrast minimum : 198 Contrast maximum : 78 ADJSEL = “H” or “Open”: Maincontrast = 128 (2) Sub-contrast R, G, B Sub-contrast can be adjusted for each R/G/B. Contrast control the amplitude of input video signal. Default value : 128 Valid range : 78 to 198 Contrast minimum : 78 Contrast maximum : 198 ADJSEL = “H” or “Open”: Sub-contrast R.G.B = 128 (3) Sub-brightness R, G, B Sub-brightness can be adjusted for each R/G/B. Brightness adjust the black level of input video signal. Default value : 128 Valid range : 55 to 163 Brightness minimum : 55 Brightness maximum : 163 ADJSEL = “H” or “Open”: Sub-brightness R.G.B = 128 Notes 1. Setting these values out of proper ranges may cause deterioration of LCD. Keep the values in valid ranges. 2. Difference between each LCD module may be seen even if the values for the functions are the identical. Moreover, optical characteristics are affected by this function. A sufficient evaluation to adopt this function is recommended. Data Sheet EN0416EJ1V0DS00 25 NL10276AC30-03 <GRAPH IMAGE> • Main contrast & Sub contrast Relative luminance Relative luminance 1 Relative luminance 1 0 1 0 Black Gray scale White 0 Black Gray scale White Black Gray scale Main contrast max. DEFAULT min. Sub contrast max. DEFAULT min. White • Sub brightness Relative luminance Relative luminance 1 1 0 1 0 Black Gray scale Sub brightness min. 26 Relative luminance White 0 Black Gray scale White DEFAULT Data Sheet EN0416EJ1V0DS00 Black Gray scale max. White NL10276AC30-03 OSD FUNCTION OSD (On Screen Display) is a function to display other digital data on analog data. Possible to display 1 bit data for each R/G/B color (8 colors). OSD is valid for the period of OSDENI. OSDRI, OSDGI, OSDBI: digital data for OSD OSDENI = “H” : OSD signal is valid OSDENI = “L” : OSD signal is not valid OSD is a sub-display for function-control and the display quality is not guaranteed. Please adopt the OSD image under sufficient evaluation of display quality. <OSD image> Analog R, G, B OSDENI OSDRI, GI, BI Real display image Note Regarding the use of OSD, please note that there is possibility of conflicts with a patent in Europe and the U.S. Thus, if such conflict might happen when you use OSD, we shall not be responsible for any trouble. Data Sheet EN0416EJ1V0DS00 27 NL10276AC30-03 OUTSIDE CONTROL FOR LUMINANCE Outside control is valid when PWSEL = “L” and BRTP signal is inputted. Luminance can be controlled by the duty value of input signal for BRTP. Duty = 100%: Luminance is maximum. Duty = 20% : Luminance is minimum. Timing for BRTP tPW tHPW BRTP tLPW VIH 50 % VIL Parameter Symbol Min. Typ. Max. Unit Remark Frequency 1/tPW 185 – 340 Hz – Pulse-width tHPW/tPW 20 – 100 % VIL – – 0.6 V – VIH 4.5 – – V – at max. luminance (100%) Input voltage Regarding set up for the frequency, please refer to following method. Set up the frequency = Vsync frequency × (n + 0.25) or (n + 0.75) Please adopt the frequency under sufficient evaluation of display quality because the display may be disturbed depending on a frequency. 28 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 INPUT SIRIAL TIMING XGA MODE (STANDARD) Name CLK Symbol Min. Typ. Max. Unit Remark Frequency 1/tc 52.0 – 65.0 15.385 80.0 – MHz ns XGA standard Rise/Fall tcrf – – 10 ns – tcl/tc 0.4 0.5 0.6 – – Period th 16.0 – 20.677 1344 22.7 – µs CLK Display thd – – 15.754 1024 – – µs CLK – Front-porch thf – 10 0.369 24 – – µs CLK – Pulse-width thp – 16 2.092 136 – – µs CLK – Back-porch thb 1.0 44 2.462 160 – – µs CLK Note Pulse-width + Back-porch thbp 1.8 – – µs – Vsync - Hsync timing thvh 3 – – CLK – thvs 1 – – CLK – thrf – – 10 ns – Period tv 13.3 – 16.665 806 18.5 – ms H Display tvd – – 15.880 768 – – µs H – Front-porch tvf – 1 62.031 3 – – µs H – Pulse-width tvp – 2 124.06 6 – – µs H – Back-porch tvb – 5 599.63 29 – – µs H – – tda 4 – – ns – Pulse-width Hsync Rise/Fall Vsync Analog R, G, B 48.363 kHz (typ.) 60.004 Hz (typ.) Note Back-porch (thb) must exceed both 1.0 µs and 44 CLK. Data Sheet EN0416EJ1V0DS00 29 NL10276AC30-03 tv tvp Vsync tvb tvf tvd Display period th thp Hsync thb thd thf thpb Display period Vsync VIL thvh thvs VIH Hsync VIL thrf 30 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 TIMING FOR GENERATING CLAMP SIGNAL INTERNALLY Hsync Display period tA tB CLAMP MOD1 MOD2 tA [CLK] tB [ns] 0 0 0 1 1 0 20 1 1 15 Prohibit 27 2 Note Exclude noises on analog R, G, B signal. Analog R, G, B signals are the black level reference during CLAMP = “L”. If noises are on the analog signals, luminance level of display is changed and the image quality of the display may be worse. TIMING FOR INPUTING CLAMP SIGNAL EXTERNALLY Hsync Display period tC tB tA CLAMP Item Min. Typ. Max. Unit Remarks tA 0.1 − − µs − tB 0.3 − − µs − tC 0.2 − − µs − Note Exclude noises on analog R, G, B signal. Analog R, G, B signals are the black level reference during CLAMP = “L”. If noises are on the analog signals, luminance level of display is changed and the image quality of the display may be worse. Data Sheet EN0416EJ1V0DS00 31 NL10276AC30-03 INPUT SIGNAL AND DISPLAY POSITION XGA standard timing Pixels D (0, 0) D (0, 1) D (0, 2) ••• ••• D (0, 1023) D (1, 0) D (1, 1) D (1, 2) ••• ••• D (1, 1023) D (2, 0) D (2, 1) D (2, 2) ••• ••• D (2, 1023) • • • • • • • • • • • • • • • • • • • • D (767, 0) D (767, 1) D (767, 2) ••• tvp ••• D (767, 1023) tvb Vsync 1 line Hsync → 0 XGA mode 1 (CNTSEL = “H” or “Open”) R G B 2 3 4 5 6 7 · · · 35 Invalid 36 37 Valid D(0,X) D(1,X) D(2,X) thp thb Hsync 1clk CLK → 0 1 XGA mode (CNTSEL = “H” or “Open”) R G B 2 · · · 136 137 138 296 297 tda Invalid Valid D(X,0) D(1,X) D(2,X) Note tda should be minimum 4 ns. 32 · · · Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 OPTICAL CHARACTERISTICS (Ta = 25°C, VDD = 12 V, VDDB = 12 V) Note 1 Item Symbol Condition Min. Typ. Max. Unit CR Perpendicular 80 200 − − Contrast ratio Remark Note 2 Lvmax White 150 200 − cd/m − White − − 1.30 − Symbol Condition Min. Typ. Max. Unit Remark Contrast ratio CR Highest contrast ratio at θD = 10° − 350 − − Note 2 Viewing angle range θR CR > 10, θU = 0°, θD = 0° 50 55 − deg. Note 4 50 55 − deg. 35 50 − deg. 30 45 − deg. Luminance Luminance uniformity 2 − Note 3 Reference data (Ta = 25°C, VDD = 12 V, VDDB = 12 V) Note 1 Item θL θU CR > 10, θR = 0°, θL = 0° θD Color gamut C at center, to NTSC 35 42 − % − Luminance control range − Maximum luminance: 100% − 20 to 100 − % − Ton white to black − 15 40 ms Note 5 Toff black to white − 40 50 ms Note 5 Response time Notes 1. The luminance is measured at 20 minutes after power on, with all pixels in “white”. The typical value is measured after luminance saturation. Display mode : VESA XGA-75 Hz RGB input voltage: 0.7 Vp-p Contrast : Default value 2. The contrast ratio is calculated using the following formula. Contrast ratio (CR) = Luminance with all pixels in “white” Luminance with all pixels in “black” 50 cm Photo-detector (BM-5A) 1° LCD module Data Sheet EN0416EJ1V0DS00 33 NL10276AC30-03 3. Luminance uniformity is calculated using the following formula. Maximum luminance Luminance uniformity = Minimum luminance The luminance is measured near five points shown below. Column 171 512 853 1 Row 128 2 3 384 4 640 5 4. Definitions of viewing angle are as follows. Normal θL θU 12 o’clock –x θR +y θD –y +x 5. Definitions of response time is as follows. Photo-detector output signal is measured when the luminance changes “white” to “black” and “black” to “white”. Response time are Ton and Toff of the photo-detector output amplitude. Ton is the time between 100% and 10%. Toff is the time between 0% and 90%. 100 % White 90 % Luminance 10 % Black 0% Ton 34 Toff Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 RELIABILITY TEST Test item Test condition Judgment High temperature/humidity operation 50 ±2°C, 85% relative humidity 240 hours, Display data is black. Note 1 Heat cycle (operation) <1> 0°C ±3°C ··· 1 hour 55°C ±3°C ··· 1 hour <2> 50 cycles, 4 hours/cycle <3> Display data is black. Note 1 Thermal shock (non-operation) <1> −20°C ±3°C ··· 30 minutes 60°C ±3°C ··· 30 minutes <2> 100 cycles <3> Temperature transition time is within 5 minutes. Note 1 Vibration (non-operation) <1> 5-100 Hz, 2 G 1 minute/cycle, X, Y, Z direction <2> 50 times each direction Notes 1, 2 Mechanical shock (non-operation) <1> 55 G, 11 ms X, Y, Z direction <2> 3 times each direction Notes 1, 2 ESD (operation) 150 pF, 150 Ω, ±10 KV 9 places on a panel Note 1 Note 3 10 times each place at one-second intervals Dust (operation) 15 kinds of dust (JIS Z 8901) Hourly 15 seconds stir, 8 times repeat Note 1 Notes 1. Display function is checked by the same condition as LCD module out-going inspection. 2. Physical damage. 3. Discharge points are shown in the figure. Data Sheet EN0416EJ1V0DS00 35 NL10276AC30-03 Next figures and sentences are very important. Please understand these, then read the text of a book. CAUTION This figure is a mark that you will get hurt and/or the module will have damages when you make a mistake to operate. This figure is a mark that you will get an electric shock when you make a mistake to operate. This figure is a mark that you will get hurt when you make a mistake to operate CAUTION Do not touch an inverter-on which is stuck a caution label-while LCD module is under operation, because of dangerous high voltage. (1) Caution when taking out the module <1> Pick the pouch only, in taking out module from a carrier box. (2) Caution for handling the module <1> As the electrostatic discharges may break LCD modules, handle LCD modules with care against electrostaic discharges. <2> As LCD panels and backlight elements are made from fragile glass material, impulse and pressure to LCD modules should be avoided. <3> As the surface of polarizer is very soft and easily scratched, use soft dry cloth without chemicals for cleaning. <4> Do not pull the interface connectors in or out while LCD module is operating. <5> Put modules display side down on a flat horizontal plane. <6> Handle connectors and cables with care. <7> The torque of mounting screw should be 0.392 N·m (4 kgf·cm) or less. (3) Caution for the atmosphere <1> Dew drop atmosphere should be avoided. <2> Do not store and/or operate LCD modules in a high temperature and/or highly humid atmosphere. Storage in an electro-conductive polymer packing pouch and under relatively low temperature atmosphere is recommended. <3> This module uses cold cathode fluorescent lamps. Therefore, the life time of lamps becomes short conspicuously at low temperature. <4> Do not operate LCD modules in a high magnetic field. (4) Caution for the module characteristics <1> Do not apply fixed pattern data signal to the LCD module at product aging. Applying fixed pattern for a long time may cause image sticking. (5) Other cautions <1> Do not disassemble and/or reassemble LCD modules. <2> Do not readjust variable resistor or switch etc. <3> When returning modules for repair or etc., please pack the module not to be broken. We recommend the original shipping packages. 36 Data Sheet EN0416EJ1V0DS00 NL10276AC30-03 Liquid Crystal Display has the following specific characteristics. They are not defects or malfunctions. The display conditions of LCD modules may be affected by the ambient temperature. The LCD module uses cold cathode tubes for backlight. Optical characteristics, like luminance or uniformity, will change during time. Uneven brightness and/or small spots may be noticed depending on different display patterns. Data Sheet EN0416EJ1V0DS00 37 4– φ 3.5 ± 0.1 204 ± 0.3 10 ± 0.3 2 6 ± 0.3 2 8 ± 0.2 2 5 2 2 170 ± 0.7 ACTIVE AREA CENTER 304.128 (ACTIVE AREA) · The torque to mounting screw should never exceed 0.392N · m (4 kg · cm) · The tolerance of the dimensions that are not shown is ±0.5 mm. 6 ± 0.3 5±0.3 2 8–R4.4 2 2 φ3 5 ± 0.2 15.6 ± 0.3 6 ± 0.3 4 2 5 340 ± 0.3 6 ± 0.3 18.6 ± 0.3 308.8 ± 0.3 (BEZEL OPENING) 97.8 ± 0.7 2 5 ± 0.3 2 2 5±0.3 Data Sheet EN0416EJ1V0DS00 197 31 ± 0.3 38 4–2.7 ± 0.3 265 ± 0.6 350 ± 0.6 20.5 Max 4–3.4 ± 0.3 NL10276AC30-03 OUTLINE DRAWINGS FRONT VIEW (Unit in mm) 232.7 ± 0.3 (BEZEL OPENING) 212 ± 0.3 228.096 (ACTIVE AREA) 7.6 20.5 Max 138 37 ± 1 232.5 139.8 ± 1 130 4 THE TFT COLOR LCD PANEL CONTAINS COLD CATHODE FLOURESCEST LAMPS. PLEASE FOLLOW LOCALORDINANCES OR REGULATIONS FOR ITS DISPOSAL 231 A 1 0 0 0 A 7 6 3 0 0 3 Material Information Light guide: >PMMA< 10.5 23.8 ± 1 8.7 53 10 CN201 CN202 32.5 189 ± 1 154 ± 1 80 M3BR (b) 48.6 ± 0.2 0.4 ± 0.2 8.6 71 R8 31 ± 0.2 115 111 54 ± 0.2 9.4 5 3.1 ± 0.2 20.2 6.5 11.8 13.4 13.5 20.5 Max · The tolerance of the dimensions that are not shown is ±0.5 mm. NL10276AC30-03 MADE IN JAPAN 104.8 218 R8 126.8 ± 1 27 ± 1 106.8 ± 1 8.7 1 19 11 85.7 45 65 20 5 76 35.8 ± 1 40.7 ± 1 22 5 6.7 14.7 5.5 13.4 35.7 86.2 ± 0.2 6 1 6 15 1 1 CN1: 14 1 MFR03-6R-SMT CN2: AMPSLIM-14P CN3: IL-Z-15P CN4: DF14A-205 Data Sheet EN0416EJ1V0DS00 20 78 59 ± 1 62.8 10.6 7.6 2.2 NL10276AC30-03 OUTLINE DRAWING (Unit in mm) REAR VIEW 39 152 NL10276AC30-03 No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in this document. NEC Corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. No license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC Corporation or others. While NEC Corporation has been making continuous effort to enhance the reliability of its electronic components, the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or property arising from a defect in an NEC electronic component, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. NEC devices are classified into the following three quality grades: "Standard", "Special", and "Specific". The Specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. The recommended applications of a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application. Standard: Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) Specific: Aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. The quality grade of NEC devices is "Standard" unless otherwise specified in NEC's Data Sheets or Data Books. If customers intend to use NEC devices for applications other than those specified for Standard quality grade, they should contact an NEC sales representative in advance. Anti-radioactive design is not implemented in this product. DATA SHEET