SERVICE MANUAL HIGH RESOLUTION DISPLAY MONITOR Diamond Pro 2060u NSZ2107STTUW NEC-MITSUBISHI ELECTRIC VISUAL SYSTEMS CORPORATION MARCH 2001 CBB-S5730
Contents 1. Circuit description ...................................................................................................................... 1-1 1.1 Power block ......................................................................................................................... 1-1 1.1.1 Outline ...................................................................................................................... 1-1 1.1.2 Rectifying circuit ...................................................
1.6.14 H/W RESET ............................................................................................................. 1-41 1.6.15 Oscillation circuit ..................................................................................................... 1-42 1.6.16 I/O expander ............................................................................................................ 1-42 1.7 Software ...................................................................................................
2. Adjustment procedure ............................................................................................................... 2-1 2.1 Measuring instruments ....................................................................................................... 2-1 2.2 Preparatory inspections ..................................................................................................... 2-1 2.3 Names of each monitor part ........................................................................
2.5.1.2 Grounding conductivity check .................................................................. 2-24 2.5.1.3 Degaussing coil operation ......................................................................... 2-24 2.5.1.4 POWER SAVE function operation (Set the AC power input to 230V) ...... 2-24 2.5.1.5 Confirming the CORNER-PURITY function ............................................ 2-25 2.5.1.6 Focus, picture performance (Timing No.12 106.25kHZ / 85Hz 1600x1200) .... 2-25 2.5.1.7 Misconvergence .
1. Circuit description 1.1 Power block 1.1.1 Outline (1) The power block is compatible with 100 to 120VAC/220 to 240VAC(50/60Hz). (2) The active filter circuit is adopted to suppress the higher harmonic current and improve the power factor. (3) The circuit that supplies the electric power to the secondary side is divided into two circuits that are respectively called the main power and sub power.
1.1.4 Higher harmonic circuit (1) The pulsating waveform rectified in the full wave mode by D901 is switched throughout the full cycle by the frequency of several tens kHz or more. Through this, the input current waveform becomes an average of the switching currents of the partial cycles, thus becoming the sine waveform in the macro. (See Fig.
D933 Waveform 1 (Refer to P1-11.) 6 L903 C906 5 4 3 2 1 400VDC Figure. 1 (Refer to P1-2.) D902 8 + 6.7V 1.6V/ 1.4V UVLO 2.5V Reference voltage source R906 5 + - R907 +13V/ Waveform2, 3 (Refer to P1-11.) 8.0V 16V Timer R 10 Drive output Delay 7 R912 Q901 PG 10 RS latch + Vref + - + 1.
1.1.5 Sub power circuit (1) The sub power uses PRC control regulator STR-G6352 (IC903) produced by Sanken Electric. (See Fig.3) (2) When the power switch is turned ON, the rectified and smoothened DC voltage (AC voltage x 2 ) is supplied to pin4 of IC903, through R950, R951 and R952. When pin4 reaches approx. 17V, the built-in output FET is put into operation. (Since Q902 is OFF, IC902 and IC 903 do not operate.) (3) This also induces the voltage at pin2 of T902 and on the secondary side.
R950 D932 R935 D941 C931 R952 D971 T902 4 5 3 6 2 7 1 8 4 Vin(on)=17.5V Vin (off)=10V + - UVLO REG TSD Latch Delay Internal Bias Tri + - Vth=25.5V + - Ta=160°C + - Vth=1.45V REG1 C940 1 D PQM Latch Toff=15µS Drive S Q R 2 OCP Comp. + - 5 Icont Vth=0.73V 3 GND IC903 (STR-G6352) R931 OSC + C972 OVP C971 L971 Vin C933 R936 1-5 Figure 3.
T901 5 R926 C912 R922 R941 3 D904 4 4 R923 Waveform5 (Refer to P1-11) IC902(STR-F6676) R3 2 C914 3 R4 LATCH D908 DRIVE REG. 9 + O.S.C T.S.D 2 Vth(1) R927 Comp.1 1 + Iconst Vth(2) Comp.2 Rconst + Rconst - R2 C1 R925 D912 R1 5 C916 O.V.P R928 START C917 1-6 Figure 4.
1.1.7 Degaussing circuit (1) The automatic and manual degaussing circuit is provided. The circuit prevents the picture from dropping its quality due to the magnetization on CRT, and operates as follows. (2) When powering ON, Q963 flows to activate RY901 by DG signal output by the MPU. This will make the current flow through the demagnetizing coil for demagnetization. The demagnetizing time is approximately 5 seconds.
~ Power system diagram 1 ~ +215V +215V +80V +80V +15V +15V PWB-MAIN PWB-POWER +12V -15V P_OFF+5V +5V -15V P_OFF+5V +5V +7.5V(HEATER) +5V P_OFF+5V +3.3V PWB-DEFL-SUB +5V -15V +215V +80V +12V +5V PWB-VIDEO P_OFF+5V +7.
~ Power system diagram 2 ~ PWB-MAIN +215V Variable circuit +B +B +15V (Chopper circuit) -15V Horizotnal width/PCC control circuit +15V +12V -15V -15V Horizontal drive circuit +12V +15V -15V +80V Vertical system circuit +80V DBF circuit +12V -15V +80V High voltage system circuit +12V +15V -15V P-OFF+5V P-OFF+5V +5V +5V PWB-DEFL-SUB P_OFF+5V P_OFF+5V -15V Reg. 3.
~ Power system diagram 3 ~ PWB-VIDEO +215V +215V Cut off circuit +12V +12V +80V +80V Main amplifier circuit +12V +12V Preamplifier circuit P-OFF+5V P-OFF+5V P-OFF+5V +12V +5V +5V +7.5V(HEATER) PWB-CRT +7.
Waveform 1. Top :AC input voltage Bottom :AC input current Waveform 2. Top :Q901 drain voltage Bottom :Q901 drain current Waveform 3. Top :Q901 drain voltage Bottom :Q901 drain current Waveform 4. Top :IC903 drain voltage Bottom :IC903 drain current Waveform 5.
1.2 Horizontal deflection block The operating principle of the horizontal deflection circuit is given below. The Q502 operates as horizontal output, and the D503 as the dumper diode. As shown in Fig. 5, the horizontal output transistor Q502 turns to ON/OFF by means of the drive pulse in pin 25 of IC601 in substrate DEFL-SUB through the drive transformer T501, drive transistor Q501, or Q560, Q561, Q562, etc.
1.2.1 Distortion compensation waveform generating circuit The deflection distortion compensation waveform for horizontal size system is output from pin 64 of IC601. This waveform is output from 1-bit DAC, with 3.3V pulse waveform with resolution 25MHz output at pin 64. This pulse waveform is leveled by the low-pass filters R632 and C622 to obtain the vertical cycle compensation waveform, with the amplitude 1.0 to 1.2Vp-p and connected to pin5 of IC5J1.
215V Q503 Q504 T502 Q502 D503 C506 L540 LIN Q540 Q510 IC501 Figure 5 Horizontal deflection circuit 1 - 14
IC601 output waveform Q501 Vce Q502 Ib Q502 Vbe Q502 Ic Q502 Vce Dumper diodes current waveform Idy Figure 6 Horizontal deflection circuit operation image 1 - 15
Figure 7.
Q502 Q502 Damper diode Current waveform (fh=106k) 1 - 17
Deflection circuit waveform while fh=31.5k 3.3V IC601 output waveform (fh=31.5k) Q501 Vce (fh=31.5k) Q501 Q502 Ib Q502 (fh=31.5k) -7Ao-p Q502 Q502 Vbe (fh=31.
Q502 Ic Q502 Q502 Q502Vce Damper diode Current waveform 1 - 19
Err Err Vcc IN OUT 14 13 12 DTC 11 Power PWM Vcc OUT 10 9 HD IN 8 + + - 9.0V Ref + SAW Gen. 1 2 3 4 5 6 7 Ref IN SAW R SAW OUT Buff OUT Buff IN Vreg GND Figure 8. IC5J1 block diagram HD IN SAW OUT Error amplifier output PWM OUT Figure 9.
Ip 0 When the picture is the center 0.
1.2.2 Deflection current compensation circuit As the picture becomes flatter, the arrival distance of the deflected electronic beam becomes more different between the center and both ends of the picture. Therefore, there is a tendency for the image to be contracted at the center of the picture and expanded at both ends of the picture. Moreover, the left side of the picture is more expanded than the right side of the picture owing to the characteristics of the circuit.
As shown in the Table 4 below, CS is switched on the horizontal frequency bands. 1/0 in the table express the signals from IC101 with 1 for HIGH and 0 for LOW. Here, the column of the frequency expresses the lower limit value. Table 4 User Timing Fh (kHz) 31 34 36.5 39 45 47.5 49 52 55 59 61 63 66 70 73 76 78.5 81.5 83 86.5 89 92 94 97 104 108 111 114 116 125 CS7 0.024 1 0 0 0 0 0 1 1 0 1 0 0 1 1 0 0 1 0 0 0 0 0 0 0 1 1 0 0 1 0 CS6 0.056 1 0 0 0 1 1 1 1 0 0 0 0 1 1 1 0 1 1 1 1 1 0 0 0 1 1 1 1 0 0 CS5 0.
The waveform of the deflection current is compensated from Fig. (a) to Fig. (b) through the above. The starting section of the current is smoothened, and the linear section becomes the S type. Figure(a) Figure(b) 1.3 Vertical output block The vertical deflection circuit controls the vertical width and vertical position with IC601 on the DEFL_SUB substract, and IC603 controls the linearity. Moreover, the signal output from IC603 is input to the vertical deflection output IC401.
1.4 High voltage block The high voltage circuit is composed of the high-voltage regulator IC701, MOS-FET Q701 flyback transformer (FBT) T701, operation amplifier IC702 and their peripheral circuits. 1.4.1 High voltage control circuit The IC701 is an IC for high voltage control, with the block diagram given in Fig.13. The OFF trigger PWM control system is adopted to carry out high voltage control.
GND2 16 SW Condenser connection for DTC COMP HV ADJ FEED BACK Vcc1 12V X-RAY 15 14 13 12 11 10 9 Vcc2 12V DTC − − − + + SYNC-IN RAMP GEN. DUTY ADJUSTMENT GND2 PROTECT VCO 1 2 PWM output Vcc2 12V 3 5 4 6 SYNC Condenser Resistance Is detection connection connection input IN for DUTY for DUTY adjustment adjustment 7 GND1 Condenser connection for IS detection Figure 13. High voltage regulator IC701 block diagram SYNC.
1.4.3 DBF (Dynamic Beam Focus) circuit Since the display is flattened, the focus becomes unequal between the center and circumference of the picture. To compensate for it, it is necessary to superimpose the parabola voltage of 370Vp-p in the horizontal cycle with the static focus (with the horizontal width is 396mm) and the parabola voltage of 145Vp-p in the vertical cycle.
After the horizontal and vertical DBF voltage are separately generated, they are amplified and are finally composed. The voltage (approx. 0.5Vp-p) of the parabola waveform shown in Fig. (a) is output from the deflection processor IC (IC601), and is amplified approx. 10 times by OPAMP (IC6A2). Thereafter, it is amplified to 50 to 60Vp-p by the transistor (Q7B1 and Q7B2). The amplification ratio is determined by the ratio between the resistors R7B6 and R7B7, being approx. 10 times.
1.5 CRT compensation block 1.5.1 Rotation circuit The rotation circuit is a circuit to compensate the picture inclination caused by the earth magnetism by letting DC current flow to the rotation coil wound on the front side of DY for adjustment. It is controlled to 0 to 5V with the reference of 2.5V by IC103 pin 3 (PWM_DAC), and DC current of +/-90mA (max) is made to flow to the rotation coil by IC804 pin 2.
(4) North-south horizontal field landing cancel The north-south horizontal field landing cancel carries out automatic adjustment of color shading and color shift occurring appeared in the opposite derection at the top and bottom end of the monitor display surface in the horizontal direction.
The vertical magnetic field landing cancel circuit is the circuit to compensate for the color shade and deviation that reaches its maximum at the center in the horizontal axis direction and its minimum at the upper and lower ends on the monitor display surface, and the adjustment is done by DC current according to the value displayed on OSD flowing to the speed modulating coil installed in the neck part of CRT. It is controlled with 0 to 5V of 2.
Examples of the functions and current waveform/compensation operation of YH(YHTT, YHTB, YHJT, YHJB) are shown as follows. In the above formulas, b11T, b11B, b12T and b12B express the compensation coefficients, and y and y^2 express the primary and secondary functions of the vertical frequencies. The other parts except the compensation coefficients are programmed, and desired amplitudes (= compensation amount) are gained by varying the coefficients.
<Factory mode> 4H Coil b11T b21L b31TL b41TL c11T c21L c31TL c41TL 4V Coil YHTT XHL S3HTL PQHTL YVTT XVL S3VTL PQVTL y^2 x^2 x^2・-(y^3+y^4+y^5+y^6) x^2・y^4 y^2 x^2 x^2・-(y^3+y^4+y^5+y^6) x^2・y^4 b11B b21R b31TR b41TR c11B c21R c31TR c41TR YHTB XHR S3HTR PQHTR YVTB XVR S3VTR PQVTR y^2 x^2 x^2・-(-y^3+y^4+y^5+y^6) x^2・y^4 y^2 x^2 x^2・-(-y^3+y^4+y^5+y^6) x^2・y^4 b12T YHJT y b12B YHJB y b31BL S3HBL x^2・-(-y^3+y^4-y^5+y^6) b31BR S3HBR x^2・y^4 b41BL PQHBL b41BR PQHBR y c12T YVJT c12B YVJB x^2・-(-y^3
For four poles magnetic field S N B G B R R N S Static change by the eternal magnetic field (Parallel shifting totally) N R S B G R S B N S N B 4H coils G R B R B R R N S Dynamic change by YHT compensate electromagnet (Compensate at the optional position on the picture.
Figure 19 (a) DDCC adjustment item 1 - 35 amp V-CONVERGENCE amp H-CONVERGENCE RED BLUE time time 1V YHTB time YVTT 1V YVTB time amp YVJB 1V YVJT YVJB YVTB YVJT&YVJB YVJT amp YHJB 1V YHJT YVTT YVTT&YVTB YHTT amp YHJB YHTB amp YHJT YHJT&YHJB YHTT YHTT&YHTB time time 1H amp 1H amp 1V PQVTL 1V PQHTL time time 1H amp 1H amp 1V PQVTR 1V PQHTR time time amp amp 1V PQVBL 1V PQHBL 1H 1H time time amp amp 1V PQVBR 1V PQHBR 1H 1H time time
Figure 19 (b) DDCC adjustment item 1 - 36 1H amp 1H amp RED BLUE 1V XVL 1V XHL time time 1H amp 1H amp 1V XVR 1V XHR time time amp amp 1H 1H 1V S3VTL 1V S3HTL time time amp amp 1H 1H 1V S3VTR 1V S3HTR time time amp amp 1V 1H S3VBL 1V 1H S3HBL time time amp amp 1V 1H S3VBR 1V 1H S3HBR time time
IC101 ST72T771N9B1 +12V Pin37, Pin38:SDA_I2C Pin36 + :SCL_I2C -15V IC6A2 Pre-Amp for 4H_DC TL084 +15V + -15V IC601 CP267P151=uPD61882BGC 1 - 37 Figure 20 DDCC circuit diagram Pin6:4H_DC(XDC) x^2 Pin8:4V_DC(YDC) x^2•y^4 x^2•-(Y^3+Y^4+Y^5+Y-6) Pin7:DCC x^2•-(-Y^3+Y^4-Y^5+Y-6) Pin61:4H_SC(XSC) Pin47:SDA_I2C Pin48:SCL_I2C 4H-Coil +12V * * + -15V IC8A1 Main-Amp for 4H_CONVERGENCE STK391-110 IC6A2 Pre-Amp for 4V_DC TL084 * y +12V y^2 Pin60:4V_SC(YSC) * + +15V -15V IC6A3 Pre-Amp for 4H_SC
1.6 Control block The control block is composed of the following: Monitor MPU IC101 to process the sync. signals, control the inside of the monitor and communicate with the external, EEPROM IC104 to memorize the picture adjustment values, I/O expander IC102 to output CS and V-LIN, etc. 1.6.1 Sync. signal process When HSYNC or Composite Sync is input from the VIDEO board to the MPU IC101 pin 30 and VSYNC is input to the MPU IC101 pin 20 the frequency/polarity of SYNC will be discriminated.
Moreover, if pin 39 PRO 1 signal is at HI for 1 second or more, it will be regarded as a short circuit of the power of the secondary side to forcibly turn ON POWER SAVE in order to prevent trouble from being escalated. 1.6.5 ABL, Beam Protector The feedback signal ABL of the beam current is input into MPU IC101 pin 16. In case the signal ABL exceeds the voltage level given below, the contrast setting of the preamplifier IC211 is lowered down to prevent the excessive flow of the beam current.
1.6.8 Display Data Channel The DDC2B/2Bi function belongs to IC101 (microcomputer). DDC2B: Immediately after the monitor power is turned ON, the microcomputer reads the EDID data from IC104. It outputs the EDID data according to the clock input into pin 34 SCL-DDC. DDC2Bi: The monitor adjusts the picture etc. corresponding to DDC2Bi command which is input to pin 34 SCL-DDC and pin 35 SDA-DDC of microcomputer. This DDC2Bi command is used for the adjustment operated at factory.
J100 pin 1 to turn ON Q100. Therefore, the current flows to J100 pin 3. (The amber LED only is lit.) 1.6.10 Clamp pulse The clamp pulse signal CLP is output from pin 22 of the MPU IC101 with the polarity POSI. When "FRONT" is selected in the OSD adjustment item "CLAMP PULS POSITION", the signal is triggered at the front edge of HSYNC, and when "BACK" is selected, the signal is triggered at the rear edge. 1.6.
When the voltage of IC100 pin 2 becomes 4.5V or more, IC100 pin 1 will be turned OFF, and the voltage of the MPU pin 54 rises with the time constants of R100 and C100. When the voltage of the MPU pin 54 becomes 3.5V or more, the MPU will start operating. 1.6.15 Oscillation circuit The crystal oscillator X100 is connected to the MPU IC101 pin 45 and pin 44. Pin 45 is the clock input, and pin 44 is the amplification circuit output in the MPU. The operation frequency of the crystal oscillator is 24MHz.
1.7.3 Memory of user timing The new timing is input. When the picture adjustment is executed, the directory data (frequency and polarity) and picture data will be memorized in EEPROM. If 15 user timings (MAX) are memorized, the memory of the oldest user timing (directory data and picture data) is deleted, and the new timing information is memorized there. USER1 USER2 ••• USER15 USER1 USER2 ••• 1.7.4 Picture adjustment (1) The monitor has the function to do the picture adjustment with OSD and communication.
(2) Power management operation When the power management is activated, (i) P_SUS signal is turned to LO to stop the power output on the secondary side except CRT heater, P-OFF+5V, +5V line. (ii) P-OFF signal is turned to LO to stop the power output of P-OFF+5V line. (iii) The front LED is lit amber. 1.7.6 OSD display at NO SYNC (1) In case there is no input in either HSYNC or VSYNC, the following OSD is displayed. (a) When OSD item "POWER SAVE" is set to "OFF", this OSD is continuously displayed.
* EEPROM memory error: Each of the high voltage adjustment “HVADJ” and “XPRO LEVEL” has independent backup data. As the power is turned ON, each adjusted value is read from EEPROM, and in case this value fails to correspond with the backup data, the situation is regarded as EPPROM memory error, setting the system forcibly to POWER MANAGEMENT mode. 1.7.8 Status memory to EEPROM The following contents are stored in EEPROM in order to supplement the analysis of fault and claim causes.
1.8 Deflection processor block 1.8.1 Outline The deflection processor block mainly composed of deflection processor IC generates and controls a variety of the following compensation waveform that are produced by this IC. The deflection processor IC is a 64pins IC of uPD61882 of IC601. The following seven points are generated and controlled by the deflection processor IC. (Refer to the block diagram of IC601 in the figure 21.
Vertical frequency Q604 Q603 50∼78Hz OFF OFF 73∼89.9Hz ON OFF 90∼124.9Hz 125∼160Hz OFF ON ON ON Table 12 Vertical linearity compensation resistance select transistor ON/OFF 1.8.3 Horizontal deflection drive waveform generating circuit The rectangular wave for horizontal deflection drive are output at the amplitude 3.3Vp-p and approx.
The vertical system DBF compensation waveform is output from pin58 in the 1-bit DAC mode. Pin 58 direct outputs the pulse waveform of the resolution power of 25MHz. The pulse waveform is smoothened with the low pass filter of R621 and C607 to gain the DBF compensation waveform of the vertical frequency. The amplitude is approximately 0.6Vp-p. It is connected to pin 3 of IC6A2. 1.8.
1 - 49 V-IN HV-BLK V-FBP SDA SCL H-IN FBP-IN H-OUT DSP Moire Cancel Generator Figure 21 IC601 block diagram (uPD61882BGC) V-Polarity Control H/V-BLK I2C Bus Interface H-PLL 1Bit D/A Convertor MOR-OUT 10Bit D/A Convertor 8Bit D/A Convertor 1Bit D/A Convertor VSAWN VSAWP IMID YDC DCC XDC HDF E/W PIN/KEY YSC XSC VDF V-PARABORA
1.8.9 Distortion compensating operation The followings are the operation image figures on the picture of the distortion compensstion. HORIZE-SIZE HORIZE-PHASE PINCUSHION KEYSTONE PIN-CENTER PCC-SINE TOP-PIN BOTTOM-PIN PIN-BALANCE KEYBALANCE BOTTOM-PIN TOP-PIN Figure.
1.9 Video Block 1.9.1 Picture signal amplifier circuit As for picture signal (video) amplification circuit, R, G and B is respectively the same circuit in structure. G (green) video circuit is explained in this section. There are two systems, i.e. SIGNAL-A and SIGNAL-B, in the video input terminal, and both have a DSUB connector. SIGNAL-A input means to input from pin 2 of D-SUB connector J215 to pin 12 of analog switch IC216.
Figure 23 Video signal amplification circuit diagram VCC 6 R1 11 10 9 8 7 6 5 4 3 2 1 Q3 R7 R4 Q6 R8 VBB 10 R5 VOUT 1,3,5 Q4 Rb Q2 R6 R3 Pin 1 Designator Q1 VIN Note: Tab is at GND Q5 11,9,8 R9 VIN1 VBB VIN2 VIN3 GND VCC VOUT3 GND 2 VOUT2 GND 1 VOUT1 R2 GND 2,4,7 Top View Simplified Schematic Diagram (One Channel) Figure 24 IC210 (LM2402T) block diagram 1 - 52
Figure 25 IC211 (MC13289ASP) block diagram 1 - 53
1.9.3 2-input change over circuit and synchronizing signal circuit There are two systems; SINGAL-A and SIGNAL-B, as well as the video input terminal, in synchronizing signal input terminal, and both has a D-SUB connector. Since input terminals and circuit operation are different in each synchronizing signal (separate, composite, picture composite), each synchronizing signal is explained in this section.
[Composite synchronizing signal] (Composite Sync) The composite synchronizing signal which has been input from SINGAL-A is input from pin 13 of D-SUB connector J215 to pin 15 of analog switch IC216. While, the composite synchronizing signal which has been input from SINGAL-B is input from pin 13 of D-SUB connector J216 to pin 7 of analog switch IC216. (Refer to A point.
[Picture composite synchronizing signal] (Sync on Green) The picture (green video) composite synchronizing signal, which has been input from SINGAL-A, is input from pin 2 of D-SUB connector J215 to pin 12 of analog switch IC216. While, the picture (green video) composite synchronizing signal, which has been input from SIGNAL-B, is input from pin 2 of D-SUB connector J216 to pin 4 of analog switch IC216.
1.9.5 AUTO-SIZE function AUTO-SIZE functions to calculate the required width and position of screen in user mode based on the position of picture signal and the phase of AFC Feed Back and to automatically adjust them. "AUTO SIZE ADJUST" is selected in OSD, and when (+) button is pressed, AUTO SIZE ADJUST process is operated. AUTO-SIZE detects the phase data of RGB OR signal, which is output from Pre-AMP IC211 to OSD-IC IC212, based on H-OSD and V-S signals input to OSD-IC IC212.
Figure 30 IC212 (XC3825P2) block diagram 1 - 58
1.10 USB circuit 1.10.1 Outline This monitor loads the standard USB SELF POWERED HUB with 1 upstream and 3 downstreams. (1) Serial data bus Data bus is connected from upstream connector J1A0 to upstream port of HUB controller IC1A0, and downstream connector J1A1 and J1A2 are connected from HUB controller. HUB controller relays data communication between the upstream side (PC) and the downstream side (device).
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2. Adjustment procedure 2.1 Measuring instruments (1) Signal generator A: Astro Design VG-812 or equivalent (2) Signal generator B: Astro Design VG-829 or equivalent (3) DC voltmeter: 150V 0.5 Class or digital voltmeter (4) High voltage meter: 0.5 Class that can measure 30KV (5) Luminance meter: Minolta color analyzer CA-100 or equivalent (6) AC voltmeter: 150V/300V 0.
2.3 Names of each monitor part 2.3.1 Configuration of front control panel a:Power Switch b:Power-ON Indicator c:Input Connector Select / OSD OFF Button d:Item Select Button e:Function Adjustment Button Inline key b a SIGNAL A/B − OSD OFF c 2.3.
2.3.3 2.3.3.1 OSD display matrix User mode Adjustment items Setting contents Default setting Setting classification Common By timings OSD group USER 1 100% 0∼100% CONTRAST 50% 0∼100% BRIGHT COLOR NO.1 COLOR NO.
2.3.3.2 Factory mode Adjustment items setting contents Default setting OSD group USER 1 0∼254 254 CONTRAST 0∼254 127 BRIGHT COLOR NO.1,2,3 COLOR NO.
Adjustment items FACT 1 PURITY/CPURITYOFF(CP P OFF) PURITY OFF(P-OFF) YHTT YHTB YHJT YHJB XH-L XH-R PQH-TL PQH-TR PQH-BL PQH-BR S3H-TL S3H-TR S3H-BL S3H-BR YVTT YVTB YVJT YVJB XV-L XV-R PQV-TL PQV-TR PQV-BL PQV-BR S3V-TL S3V-TR S3V-BL S3V-BR DBF-H-AMP DBF-H-PHASE(DBF PHS) DBF-V-AMP R BIAS (COLOR1) RB93 G BIAS (COLOR1) GB93 B BIAS (COLOR1) BB93 R BIAS (COLOR2) RB65 G BIAS (COLOR2) GB65 B BIAS (COLOR2) BB65 R BIAS (COLOR3) RB50 G BIAS (COLOR3) GB50 B BIAS (COLOR3) BB50 SUB-BRIGHT ABL HEATER-OFF (HEATER) B-LOW
2.4 Adjustment 2.4.1 How to select the factory adjustment (FACTORY) mode 2.4.1.1 Selecting with front panel switches (1) Turn the power ON while holding down the Input Connector Select / OSD OFF button. (2) After step (1), release the button after one to two seconds. (3) Confirm that 00 is displayed for the counter on the OSD display, and set to 225 with the (-) ADJUST button. (4) Set to 05 with the (+) ADJUST button.
2.4.2.2 SCREEN voltage / FOCUS adjustment (Input the timing No.12 (106.25kHz / 85Hz, 1600 X 1200) crosshatch signal) (1) Connect a high voltage meter to the TP-SC terminal on the CRT PWB. (2) Set to 700V±5V with the FBT picture potentiometer. (3) Adjust the focus pack "FOCUS 1, 2" so that both edges of the picture are clear. 2.4.2.3 Shock test (1) Display the "color bar". (2) Confirm that there is no abnormality in the image when shock is applied on the monitor. 2.4.2.
2.4.4 Adjusting the picture size, position and distortion The manual adjustment methods are explained below. The adjustments are executed in the factory adjustment (factory) mode. Adjust the picture size to the value indicated in the list of adjustment values.(Refer to 2.5.1.10 Adjustment value list.) Adjust the distortion to the value indicated in the picture performance inspection item. (Refer to 2.5.1.8 Picture distortion.) 2.4.4.
(6) If the left and right distortions differ, select PIN-BALANCE, KEY-BALANCE, TOP-BALANCE and BOTTOM-BALANCE with the OSD, and adjust so that the distortions are visually balanced. (7) Select H-PHASE with the OSD, and adjust the horizontal raster position to the center of the picture using the ADJUST buttons. (8) Select H-SIZE with the OSD, and adjust the horizontal raster width to the value given in the adjustment list using the ADJUST buttons. (Refer to 2.5.1.10 Adjustment value list.
2.4.5 Adjusting the cut off Status indicator Adjustment mode/set Adjustment item Factory Cut off Imput signal/pattern No. 12:106.25K / 85Hz, 1600x1200 (1) Input the timing No. 12 (106.25kHz/85Hz, 1600x1200)from the signal generator. (R, G, B OFF) (2) Select BIAS1, and set BRIGHT to 127, SUB-BRIGHT to 380, and the R, G, B-BIAS to 30. (3) Adjust the back raster luminance to 0.3±0.1cd/m 2 with SUB-BRIGHT. (4) (5) (6) (7) (8) (9) When the back raster luminance is less than 0.
Cutoff adjustment procedure Select BIAS1. Set BRIGHT to 127, SUBBRIGHT to 380, and R, G, B-BIAS to 30. Back raster luminance = 0.3 ± 0.1cd/m2 N Y Back raster luminance at SUB-BRIGHT = 0.3 ± 0.1cd/m2 luminance < 0.3 Y Back raster color coordination x=0.283 ± 0.015 y=0.297 ± 0.015 N Vary R,G,B-BIAS Y Back rasterYluminance = 0.3 ± 0.1cd/m2 N Vary SUB-BRIGHT Y Back raster color coordination x=0.283 ± 0.015 y=0.297 ± 0.
Continued from previous page Select BIAS2 Set the value to the same one as G-BIAS of COLOR 1. Back raster color coordination x=0.313±0.015 y=0.329±0.015 N Vary R,G,B-BIAS Y Select BIAS3 Set the value to the same one as G-BIAS of COLOR 1. Back raster color coordination x=0.345±0.015 y=0.359±0.
2.4.6 2.4.6.1 Adjusting the RGB drive signal and X-Pro Adjusting the R, G, B drive signal (Adjustment of COLOR 1) Adjustment mode/set Adjustment item Status indicator Factory R, G, B drive signal Imput signal/pattern No. 12:106.25K / 85Hz, 1600x1200 WINDOW picture (1) Input the timing No.12. WINDOW picture (Input amplitude = 0.7Vp-p) (2) Select CONTRAST with the OSD, and set to MAX with (+) ADJUST button. (3) Select BRIGHT with the OSD, and set the data to 127 with the (-) (+) ADJUST buttons.
2.4.6.3 Adjustment of X-Pro (Timing No. A 30k/70Hz Full white) (1) Select XPRO-CALIBRATE by button and press (+) button. (When (+) button is pressed, microcomputer automatically sets the protector.) (2) Confirm that OK is indicated on OSD. 2.4.6.4 Confirmation for operation of X-Pro (Timing No. 25 1800 x 1350 at 85Hz, Full white) (1) Select XPRO-TEST 28 mode by button and press (+) button. (2) Confirm that OK is indicated on OSD without entering power save state.
2.4.8 Adjusting the focus (1) Adjustment of vertical line (F1-VR adjustment) Focus Just at the point A (circled) with full green color displayed. If Core : Halo of the both vertical lines with full red color displayed 1 : 1, adjust to the less than 1 : 1. (2) Adjustment of horizontal line (F2-VR adjustment) Focus Just at the point B (circled, at center of screen) with full white. (3) If the vertical line is not fully focused, repeat operation (1) and (2) to readjust.
The focus is judged as follows. Timing Judgment pattern (Note 1) (Note 2) Normal display (All preset) Crosshatch pattern Reverse display Resolution: ≤1600x1200 Resolution: ≥1600x1200 Judge with pattern A Judge with pattern B (Note 1) Pattern A: Font 7 X 9, Cell 10 X 11, e character Pattern B: Font 7 X 9, Cell 10 X 11, H character (Note 2) Focus judgement: Crosshatch pattern should be used for normal display judgement Core: Judge the ratio of the halo (Center 1:1) and (both side, less than 1:1.5).
Adjusting the center misconvergence and axial misconvergence Adjustment item name Problem R Adjustment point Adjustment procedure B Adjust to ±0.1mm or less with CP-ASSY 4P. H-STATIC V-STATIC YH axial deviation Adjust so that TOP+BOTTOM are ±0.1mm or less with YH volume. YV axial deviation Adjust so that TOP-BOTTOM is ±0.1mm or less with YV volume. XH axial deviation Adjust so that LEFT-RIGHT is ±0.1mm or less with XH slider. XV characteristics Only when XV (B-Bow) is ±0.
2.4.9.2 Adjusting DDCP (1) Input the timing No. 12 (106.25kHz/85Hz, 1600 x 1200) crosshatch pattern. (2) Enter the factory mode. (3) Adjust in the following order. (It is assumed that the center and axial misconvergence on the previous page have already been adjusted.) Adjustment Adjustment item name order Problem Adjustment point Adjustment procedure 4H-COIL 1 HORIZCONVERGENCE R B Adjust to 0.05mm or less. (Adjustment target is 0mm.) YH (Top) YH-TT Adjust to 0.05mm or less.
Adjustment Adjustment item name order Problem Adjustment point Adjustment procedure 4H-COIL S3H(TL) R 6 B S3H-TL Adjust to 0.3mm or less. S3H(TR) 7 S3H-TR Adjust to 0.3mm or less. S3H(BL) 8 S3H-BL Adjust to 0.3mm or less. S3H(BR) 9 S3H-BR Adjust to 0.3mm or less. PQH (TL) B 10 PQH-TL Adjust to 0.3mm or less. R PQH (TR) 11 Adjust to 0.3mm or less.
Adjustment Adjustment item name order Problem Adjustment point Adjustment procedure 4H-COIL 12 PQH-BL Adjust to 0.3mm or less. PQH (BL) 13 Adjust to 0.3mm or less. PQH-BR PQH (BR) Adjustment Adjustment item name order Problem Adjustment point Adjustment procedure 4V-COIL 1 VERTCONVERGENCE (Basic Convergence vertical) R Adjust to 0.05mm or less. (Adjustment target is 0mm.) B YV (TOP) 2 YV-TT YV-JT YV-M (TOP) YV-M (BOTTOM) 3 YV-TB YV-JB YV (BOTTOM) 2 - 20 Adjust YV (TOP) to 0.
Adjustment Adjustment item name order Problem Adjustment point Adjustment procedure 4V-COIL XV(Left) 4 XV-L Adjust to 0.1mm or less. XV(Right) 5 XV-R Adjust to 0.1mm or less. S3V(TL) B 6 S3V-TL Adjust to 0.3mm or less. R S3V(TR) 7 S3V-TR Adjust to 0.3mm or less. S3V(BL) 8 S3V-BL Adjust to 0.3mm or less. S3V(BR) 9 S3V-BR Adjust to 0.3mm or less.
Adjustment Adjustment item name order Problem Adjustment point Adjustment procedure 4V-COIL B R 10 PQV (TL) PQV-TL Adjust to 0.3mm or less. PQV (TR) 11 PQV-TR Adjust to 0.3mm or less. 12 PQV-BL Adjust to 0.3mm or less. PQV (BL) 13 PQV-BR Adjust to 0.3mm or less. PQV (BR) * Specify the adjustment value range of the following adjustment items in general DDCP adjustment.
2.4.10 Default settings (With factory mode) Status indicator Adjustment item Default settings Adjustment mode/set Factory mode Imput signal/pattern Each adjustment timing Crosshatch (1) Set the default values as shown in the table (user mode) given in the OSD display (Refer to 2.3.3.1 User mode). If the setting class is an item for each timing, carry out for each adjustment timing except the item of default setting "CENTER". (2) Return to the user mode with the front panel.
2.5 Inspections (In normal mode) Status indicator Adjustment mode/set Adjustment item Imput signal/pattern Normal mode Inspections 2.5.1 Electrical performance Inspect the electrical performance by setting contrast to MAX and bright to center (press the (-) (+) ADJUST buttons simultaneously). 2.5.1.1 Withstand voltage There must be no abnormality when 1500VAC is applied for two seconds between both ends of the AC input terminal and chassis, and between the DG coil terminal and chassis. 2.5.1.
2.5.1.5 Confirming the CORNER-PURITY function Confirmation timing Timing No. 12 (106.25kHz / 85Hz, 1600x1200) Input a (full white display), and press the (-)(+) ADJUST buttons to change the CORNER PURITY (TR/TL/BR/BL). Confirm that the color coordination around the picture changes. 2.5.1.6 Focus, picture performance (Timing No. 12 106.25kHz / 85Hz, 1600 x 1200) Adjustment mode/set Adjustment item Status indicator Imput signal/pattern No.12 : 106.
2.5.1.8 Picture distortion When the picture distortion is measured, each distortion of the preset timing must be less than the following values. Inspect the following items for the picture distortion. No. 1. Item 4-corner section distortion Inspect the distortion at the four corners. ¥ Signal, H character with frame (both normal/reverse) x 2. ¥ Distortion x: Distortion in the range of one H character height. Judge with the white display G.
No. 4. Item Judgement reference value Line curve (crosshatch pattern outer contour) x x 1.0mm y 1.0mm y x: Curve within 50mm range (horizontal) y: Curve within 50mm range (vertical) 5. Horizontal trapezoid (top/bottom), vertical trapezoid (left/right) Bezel y1 y1 6. y2 y=|y1-y2| x=|x1-x2| Control with the above • x1 right value for each the top, bottom, left and right. x2 • y 2.0mm x 1.8mm Top/bottom pin and barrel, left/right pin and barrel yb yb 1.3mm yp 1.5mm x 1.0mm yp x 7.
No. 9. Item Distortion Judgement reference value Must be within the following frame. (Note, excluding ROTATION) y x y x Input signal 2.0mm 2.0mm Crosshatch pattern |L1-L2| 5.0mm |L3-L4| 3.0mm Full white x y 10. Picture position Display picture Specified H width L3 L2 L1 Specified V width L4 Phosphors surface 2.5.1.
2.5.1.10 Adjustment value list The horizontal width, vertical width and DBF-H amplitude must be within the following ranges. Timing Horizontal width (mm) Vertical width (mm) No. 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 28 DBF-H amplitude (H) DBF-V amplitude (V) Standard Adj. value Max. Adj. value Standard Adj. value Max. Adj. value Adj. value Adj.
2.5.1.12 Checking the functions during Composite Sync input Adjustment mode/set Adjustment item Status indicator Imput signal/pattern Checking the functions during Sync. Check 2 : 35kHz / 66Hz on Green and Composite Sync input Full white [Composite Sync] Timing: Check 2 (35kHz/66Hz), full white In the normal mode, input the above timing to confirm that the operation is normal. 2.5.1.
2.5.1.18 Confirming the color tracking Status indicator Adjustment item Adjustment mode/set Imput signal/pattern Confirming No.12 : 106.25kHz/85Hz color tracking Full White Confirm with the timing No. 12 (106.25kHz/85Hz, 1600 x 1200). Measure the color coordination at the center of the picture using a full white pattern (input amplitude = 0.7Vp-p). Confirm that the color coordination change is within the ±0.015 range when the CONTRAST is set to 25cd/m 2 with the OSD. 2.5.1.
2.6 DDC write data contents The contents of DDC write data must be as follows. EDID DATA for DDC (NSZ2107) ADR (H) E80-E8F E90-E9F EA0-EAF EB0-EBF EC0-ECF ED0-EDF EE0-EEF EF0-EFF 00 WW 12 e1 13 79 53 00 ff YY 48 4f 00 24 5a ## ff 01 4c 61 8c 00 32 ## ff 02 ff 59 29 0a 31 ## WW : Week of Manuf. YY : Year of Manuf.
2.7 Self-diagnosis shipment setting The shipment settings for self-diagnosis data area (region) are given below. ADR Default Setting (H) 6A 6B 6C 6D 6E 6F 70 71 00 72 00 73 00 74 00 75 00 76 00 77 78 79 7A 7B 7C 7D 00 A0 00 A1 A2 00 A3 00 A4 2.
2.9 Degaussing with handy-demagnetizer 2.9.1 General precautions (1) Carry this procedure out with the monitor power ON. (2) When degaussing with handy-demagnetizer, the demagnetizer power must be turned ON and OFF at a position at least 1m away from CRT tube. (3) Use a bar type demagnetizer instead of a ring type. Carefully and slowly (1m/3 sec.) demagnetize the CRT tube and bezel side surface. When separating the degaussing coil at the end, separate as slow as possible with the following procedure.
2.10 Timing chart [H-SYNC] Tsh Th Tbh Tdh Tfh [VIDEO] Video signal level Set Up nsignal level [V-SYNC] Tsv Tv Tbv Tdv Tfv [VIDEO] ※Refer to after the next page for the preset timing details.
2.11 Fh (kHz) Check 35 1 Check 35 2 Check 130 3 Check 106.250 4 A 30 Clock (MHz) Th (µSEC) (dot) 28.571 Tsh (µSEC) (dot) 3.500 Tfh (µSEC) (dot) 1.891 Tbh (µSEC) (dot) 4.000 Tdh (µSEC) (dot) 19.180 28.571 3.500 1.891 4.000 368.116 7.692 0.608 0.456 229.500 9.412 0.837 33.333 4.000 Fv (Hz) Vs VIDEO set up Serralevel tion level (V) (V) 0.7 - Check 1 0.7 - 1H Check 2 - 0.7 - - + - 0.7 - - + - 0.7 - - 66.70 Tv (mSEC) (line) 15.000 Tsv (mSEC) (line) 0.
NO Fh (kHz) Clock (MHz) 1 31.469 25.175 2 31.469 25.175 3 37.500 31.500 4 43.269 36.000 5 46.875 49.500 6 53.674 56.250 7 60.023 78.750 8 68.677 94.500 9 79.976 135.000 10 91.146 157.500 11 93.750 202.500 12 106.250 229.500 13 106.270 261.000 14 112.500 288.000 2 - 37 15 112.500 297.000 16 35.00 30.240 17 49.710 57.270 18 60.240 80.000 19 68.680 100.000 20 100.200 219.638 21 107.200 234.982 22 114.240 252.242 23 105.675 261.229 24 113.040 279.435 25 120.
TECHNICAL SPECIFICATION FOR 55cm/51cmV (22"/20"V) HIGH RESOLUTION DIGITAL CONTROL AUTO-TRACKING COLOR DISPLAY MONITOR MODEL NAME: NSZ2107STTUW DATE : Jan 18, 2001 NEC-MITSUBISHI ELECTRIC VISUAL SYSTEMS CORPORATION 1/ DOCUMENT No.
TABLE OF CONTENTS 1. Regulations 1.1 Geographical Region and Regulations 2. CRT Specifications 3. Electric Specifications 3.1 3.2 3.3 3.4 3.5 Deflections Signal Input Video performance Power Supply Power Saving 3.6 Degaussing 4. Functions 4.1 4.2 4.3 4.4 4.5 4.6 Front Controls OSD (On Screen Display) Functions Back Panel Connector Pin Assignment DDC (Display Data Channel) Functions Preset Timing 5. Display Quality 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.
7. Environmental Conditions 7.1 Vibration Test (with carton box) 7.2 Drop Test (with carton box) Appendix 1 Preset Timing Chart Appendix 2 EDID data for VESA DDC Fig.1 Fig.2 Fig.3 Fig.4 Outline Bezel Logo Rating Label Carton Box Fig.5-1 Fig.5-2 Fig.6 Fig.7-1 Fig.7-2 Fig.7-3 Fig.8 Fig.9 Printing Specification of Carton Box (US) Printing Specification of Carton Box (EU) Packing Style AC Power Cord for North America AC Power Cord for Except U.K. AC Power Cord for U.K.
MODEL: NSZ2107STTUW NO. 1 CRT 2 3 4 5 TYPE NM VISUAL STANDARD Size 55cm / 51cmV ( 22" / 20"V) Grill Spacing(Phosphor Spacing) 0.24mm (0.25mm) Phosphor Type B22 (EBU) G-WARAS Coating Face-plate S-NX-DBF Electron Gun Type Face-plate Transmission approx.38.4 %(Including face-plate coating) SCANNING 30k - 121kHz Horizontal Freq. Vertical Freq. 50 - 160Hz SIGNAL INPUT Video Analog Composite Sync. with G-video Sync. Composite Sync. Separate Sync. Termination Video 75 Ω to Ground (Impedance) Sync. 2.
1. Regulations 1.1 Geographical Region and Regulations REGULATIONS GEOGRAPHICAL REGION SAFETY EMC X-RAY ELF/VLF UL DHHS MPR-II FCC-B C-UL DOC-B HWC TCO'91 TÜV-GS EN55022-B RöV EN55024 EN61000-3-2 EN61000-3-3 VCCI - B JPHG NSZ2107STTUW Power Ergonomics Miscellaneous Management Energy Star Energy2000 TÜV-GS TCO'99 TÜV-Ergo CE Marking UL : UL1950 3rd Edition C-UL : CAN/CSA-C22.2 NO.
2. CRT Specifications M51LRY32X61 Diamondtron NF (Aperture Grille) 55cm / 51cm Diagonal View able Image Size (22" /20" Diagonal View able Image) Grille Spacing 0.24mm 0.25mm Phosphor Spacing Deflection Angle 90 degree Phosphor Type B22 (Medium short persistence) Electron Gun Type S-NX-DBF Face-plate Transmission Approx. 38.4% (Include Face-plate coating) CRT model no.
3.Electric Specifications 3.1 Deflections Scanning Frequency Horizontal 30 - 121kHz ≥1.0 µsec Back Porch Blanking ≥ 2.0 µsec ≥ 0.
3.4 Power Supply 100 - 120 / 220 - 240 VAC ± 10% 50/60Hz ± 3Hz Input Voltage Frequency Power Consumption (typ.) 140W 1.40A@100-120VAC 0.70A@220-240VAC (without USB load) 155W 1.55A@100-120VAC 0.75A@220-240VAC (with USB load) AC leakage current ≤ 3.5mA Inrush current ≤ 70A 0-peak at 240VAC on cold starting 3.5 Power Saving On On Power Recovery Consumption Time Active 140W - Off On Blank On Off Blank Off Off Blank H-sync V-sync Video OFF ON ≤ 3W 5 sec LED Indicator Green Orange 3.
4.Functions 4.1 Front Controls a : POWER SWITCH b : POWER-ON INDICATOR c : OSD OFF BUTTON d : SIGNAL A/B SELECT BUTTON e : ITEM SELECT BUTTONS f : FUNCTION ADJUST BUTTONS b a SIGNAL A/B + OSD OFF c d 4.
4.
4.
4.5 DDC (Display Data Channel) Functions VESA DDC2B(EDID data only) Compliance (for Signal A). VESA DDC2Bi Compliance (for Signal B). See Appendix 2 for EDID data. 4.6 Preset Timing Factory-preset :10(max22) see Appendix 1 for detail timing parameters. User-preset :15 Preset Timing Discrimination Horizontal Frequency ≥1kHz Vertical Frequency ≥1Hz Sync Signal Polarity H or V-sync signal polarity is different. •The monitor is able to discriminate input signals by at least one of above parameters. 4.
5. Display Quality 5.1 Test Conditions AC Voltage Video Signal Warm Up Temperature 120VAC 60Hz or 230VAC 50Hz 1600 x 1200 (106kHz at 85Hz Hz) 0.7Vp-p More than 30 min. with full white picture 20 - 25 ˚C Relative Humidity Magnetic Field Contrast & Brightness 40 - 80% BH=0, BV=0.
5.5 Overall Distortion Distortion Except rotation and centering H: ≤ 2.0mm , V: ≤ 2.0mm •With Green-Crosshatch applied. •The other distortion is defined as the total of all image distortion excluding rotation and display centering. ≤ 2.0mm Picture ≤ 2.0mm ≤ 2.0mm ≤ 2.0mm 5.6 Linearity Linearity H: ≤15%(30-40k) , ≤12%(40-60k) ,≤10%(60-121k) adjacent: ≤ 7% V: ≤10% adjacent: ≤ 7% •at preset timings •With Green-Crosshatch (17 lines horizontally by 13 lines vertically ) applied.
5.7 Misconvergence Misconvergence Area A: ≤ 0.25 mm within the 297mm diameter circle Area B: ≤ 0.35 mm within 396mm x 297mm •With White-Crosshatch applied. •Zone A is a circular area with 297mm diameter at the center. •Zone B is a rectangular area (396mm x 297mm) outside of the zone A. •Use worst case horizontal/vertical misconvergence between any two primary colors.
5.8 Focus Focus Displaying 7 x 9 pixel "e" with white single pixel strokes, the entire screen shall be readable with clearly discernible characters at normal viewing distance. 5.9 Raster Regulation Rater Size Regulation ≤ 0.5% of the horizontal or vertical picture size •The picture size change is less than adjusted value in either the horizontal or vertical direction over 30% to 100% luminance range and 90 - 132VAC or 198 - 264VAC Input respectively.
6. Mechanical Specifications 6.1 Cabinet , Tilt / Swivel Base Molded material Cabinet : ABS (Flame Class HB) Tilt /Swivel Base : ABS (Flame Class HB) Cabinet color Grayish White (Mitsubishi Control Color No. : B-N-C039) Bezel Logo See Fig.2 Tilt & Swivel Right & Left : -90˚to +90˚ Up & Down : 10˚ to -5˚ Dimension 495mm (W) x 493.5mm (H) x 473mm(D) 19.5" (W) x 19.4" (H) x 18.6" (D) (include Tilt /Swivel Base, see Fig.1) 6.2 Rating Label see Fig. 3 6.
7. Environmental Conditions 7.1 Temperature, Relative Humidity & Altitude Operating Temperature Storage and shipment 5 - 35˚C -20 - 60˚C Relative Humidity 10 - 90% 10 - 90% Altitude 3000m (10000ft) without condensation without condensation 15000m (50000ft) 7.2 Vibration Test (with carton box) 1) Random Vibration Test Axis 3 axis Search Frequency Acceleration Dwelling Time Mounting 5 - 200Hz 0 - 14.
7.2 Drop Test (with carton box) E C A B 2 D Front 5 3 F 1 4 The inside unit shall be withstand without any damage by following procedure. Drop to the hard wooden board from the position of the following heights. After finish the drop test of edges (3 position) and also corners(2 position), tester has to change to new cushion. However for the carton box, tester must not change to the new box and use the damaged box continuously.
Appendix 1 Preset Timing Chart [H-SYNC] [VIDEO] Tsh Tbh Th Tdh Tfh [V-SYNC] [VIDEO] Tsv Tbv Tv Tdv Tfv Clock Th Tsh Tfh Tbh Tdh Tv Tsv Tfv Tbv Tdv Fh Fv Hs Vs REMARK ( MHz ) ( µ SEC) ( µ SEC) ( µ SEC) ( µ SEC) ( µ SEC) (mSEC) (mSEC) (mSEC) (mSEC) (mSEC) (kHz) (Hz) S ( dot ) ( dot ) ( dot ) ( dot ) ( dot ) ( line ) ( line ) ( line ) ( line ) ( line ) 25.175 31.778 3.813 0.636 1.907 25.422 16.683 0.064 0.318 1.048 15.253 31.469 59.
Appendix 2 EDID data for VESA DDC Manuf Code: MEL 640x480 @ 72 Hz Product Code LSB (HEX): 11 640x480 @ 75 Hz Standard Timing #7: Horizontal Active Pixels: 1024 Product Code MSB (HEX): 45 800x600 @ 56 Hz Aspect Ratio: 4:3 Product Code (DEC): 17681 800x600 @ 60 Hz (768 active lines) (Microsoft INF ID: MEL4511) 800x600 @ 72 Hz Refresh Rate: 85 Hz Serial Number (DEC): ** 800x600 @ 75 Hz Serial Number (HEX): ** 832x624 @ 75 Hz Standard Timing #8: Week of Manuf: WW 1024x768 @ 87 Hz (I) Horizo
•CABINET COLOR : Graysh white 355.5 •TILT / SWIVEL BASE Swivel Angle : +90° ~ -90° Tilt Angle : +10° ~ -5° 473 495 1 98.5 102 63 233 81.5 287.5 461 224.5 312 493.5 412 30.5 57 CONTROL BUTTONS 230 420 POWER SWITCH AC POWER CONNECTOR 11 SIGNAL INPUT CONNECTOR (DB9-15P) 115 USB UPSTREAM PORT POWER-ON INDICATOR Fig.
9 55.7 36 56.5 SIGNAL A/B COLOR OF LETTERING:PANTONE COOL GRAY 10C OSD OFF Fig.
COLOR OF BACKGROUND •••• Graysh white(Cabinet color) COLOR OF LETTERING ••••• Pantone cool gray 10C 135±0.5 mm LISTED Info Tech Equip 45FN E211679 Color Display Monitor Model No. NSZ2107STTUW 46±0.5 mm 50 / 60Hz 1.55A / 0.75A Beschleunigungsspannung maximal 28.0kV. Vorsicht Hochspannung Die in diesem Gerät erzeugten Röntgenstrahlen sind durch die eigensichere Kathodenstrahlröhre ausreichend abgeschirmt. This product complies with DHHS Rules 21 CFR Subchapter J applicable at date of manufacture.
617 623 614 311 625 311 623 (outer flap) (inner flap) (inner flap) (outer flap) MARK OF BOX CERTIFICATION. D H FRONT W Printing process. : Outer dimension. : Number of piles. : Bursting strength. : Material. : Printing color : FLEXO-PRINTING W:632 x H:643 x D:626 (mm) Max. 5 piles. 2 275LBS / inch Kraft color linerboard and trifaced corrugated board. (Double wall) Black Fig.
Fig.
Fig.
NOTE 1 USER'S GUIE NOTE 1: AC POWER CORD (1) North America : see Fig.7-1 (2) Eurpe : see Fig.7-2 & Fig.7-3 AC POWER CORD SIGNAL CABLE USB CABLE SEAL STYLE JOINT STAPLE (STEEL) CARTON-TAPE (TOP & BOTTOM) TOP CUSHION MONITOR PACKING BAG BOTTOM CUSHION FRONT HOTMELT-BOND (INSIDE FLAP) CARTON BOX Fig.
1.CABLE:Cross - section Area-----AWG18X3C 2.JACKET:PVC 3.ABILITY (1) VOLTAGE : AC 125V (2) AMPERAGE : AC 10A (3) TEMPERATURE : 60°C PVC JACKET : LIGHT GRAY PVC INSULATION ( WHITE ) 4.REGULATORY APPROVALS:UL, CSA PVC INSULATION ( GREEN / YELLOW) PVC INSULATION ( BLACK ) CONSTRUCTION About 1800mm Fig.
1.CABLE : Cross - section Area----1.0mm2 X3C 2.JACKET : PVC 3.ABILITY (1) VOLTAGE : AC 250V (2) AMPERAGE :AC 10A (3) TEMPERATURE :70°C PVC JACKET : LIGHT GRAY 4.REGULATORY APPROVALS:VDE,KEMA-MEUK,SEMKO,NEMKO,DEMKO, FIMKO,SEV,ÖVE,IEMMEQU,CEBEC,IEC227 PVC INSULATION ( GREEN/YELLOW ) PVC INSULATION ( BLUE ) PVC INSULATION ( BROWN ) CONSTRUCTION About 2500mm Fig. 7 - 2 AC POWER CORD ( For except U.K.
2 1.CABLE : Cross - section Area---1.0mm X3C 2.JACKET : PVC 3.ABILITY (1) VOLTAGE : AC 250V (2) AMPERAGE : AC 10A (3) TEMPERATURE : 60°C PVC JACKET : LIGHT GRAY PVC INSULATION ( BLUE ) 4.REGULATORY APPROVALS : BS PVC INSULATION ( GREEN/YELLOW) PVC INSULATION ( BROWN ) CONSTRUCTION About 2100mm Fig. 7 - 3 AC POWER CORD ( For U. K.
Packing SIGNAL CABLE Vinyl band (230) 1. JACKET:PVC (Color......Light gray) 2. ABILITY (1)VOLTAGE:30V (2)TEMPERATURE:80 C° Vinyl bag specifications SC-B110 •Material:Polyethylene (PE) •Thickness:0.05mm •Dimension:100X300mm SC-B11 0 The undermentioned content is printed in red. NEC-MITSUBISHI ELECTRIC VISUAL SYSTEMS CORPORATION S C - B 1 1 0 1800 +100 0 SCREW No.4-40 UNC SCREW No.4-40 UNC WIRING LIST D/M P/C SIGNAL SC-B110 SC-B110 1 6 2 7 Color....
(160) USB Cable (RC - X301) Packing Vinyl bag specif icat ions 1. JACKET:PVC 2. ABILITY (1) VOLTAGE :30V (2) TEMPERATURE :80ºC • Mat erial:Polyet hylene (PE) • Thickness:0.05mm LABEL TRANSPARENT-TAPE 180 0 ±50 USB PLUG B 30.5 11.75 MIN (8) (8) 11.75 MIN 30.5 USB PLUG A RC-X301 Color....Light gray Color....Black Color....Black CONSTRUCTION PE JACKET(GREEN) PLUG A PVC JACKET(Light gray) PE JACKET(WHITE) COPPER BRAID SHIELD PVC JACKET(BLACK) CONTACT NO.
AUTO-SCANNING WITH DIGITAL CONTROL COLOR DISPLAY MONITOR USER S GUIDE For future reference, record the serial number of your display monitor in the space below: SERIAL No. The serial number is located on the rear cover of the monitor. Internet Home Page: http://www.necmitsubishi.com/ ® Supplying Windows 95/98/2000 INF File download service, new product information, etc.
RADIO INTERFERENCE REGULATIONS STATEMENT FOR U.S.A. As an ENERGY STAR Partner, NEC-Mitsubishi Electronics Display of America,Inc. has determined that this product meets the ENERGY STAR guidelines for energy efficiency. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
Below you will find a brief summary of the environmental requirements met by this product. The complete environmental criteria document may be ordered from: TCO Development SE-114 94 Stockholm, Sweden Fax: +46 8 782 92 07 Email (Internet): development@tco.se Current information regarding TCO’99 approved and labelled products may also be obtained via the Internet, using the address: http://www.tco-info.
CONTENTS 1.1 Features ........................................................ 1-2 CAUTION 1.2 Internal Preset Memory Capability ................ 1-3 The power cord provided with this monitor is designed for safety and must be used with a properly grounded outlet to avoid possible electrical shock. 1.3 Power Management Function ....................... 1-3 Do not remove the monitor cabinet as this can expose you to very high voltages and other hazards. 1.6 Cleaning Your Monitor ........................
1 INTRODUCTION Congratulations on your purchase of the high resolution color monitor. We designed this monitor to provide you with years of reliable trouble-free operation. • The world's standard DIAMONDTRON NF CRT upgraded and pure picture images. • The monitor complies with Video Electronics Standards Association (VESATM) DDCTM2B and 2Bi (EDID) specification. If your computer is Plug & Play compliant setup will be done automatically.
1.2 1.5 Internal Preset Memory Capability Location Considerations When setting up and using the monitor, keep the following in mind: • For optimum viewing, avoid placing the monitor against a bright background or where sunlight or other light sources may reflect on the display area of the monitor. Place the monitor just below eye level.
1.7 1.9 Quick Operation Chart Unpacking To summarize the steps in connecting your computer with the color monitor and setting the necessary controls and switches, refer to the chart below. After you unpack the box you should have all of the items indicated in Figure 1. Save the box and packing materials in case you transport the monitor. 1 2 Connect the color monitor and computer with the necessary cords and cables. See Section 3. INSTALLATION AND CONNECTION 4 3 5 Turn on the color monitor.
2 PART NAME ENGLISH 2.1 Control Names See Figures 3 and 4 for the location of the user controls, indicator and connectors. Each part is identified by number and is described individually. 1 1 2 3 4 5 FRONT SIGNAL A/B − OSD OFF SIGNAL-B + SIGNAL-A 6 8 7 9 REAR 10 Figure 4 Figure 3 2.2 Function 1. POWER SWITCH: A push-on / push-off switch for AC power. 5. 2.
3.2.2 Connecting to An Apple Macintosh Computer 3 INSTALLATION AND Figure 6 shows the SC-B110 cable and AD-A205 Adapter(option) to the video port in an Apple Macintosh. CONNECTION For Macintosh Adapter AD-A205, contact your dealer. On the back of the monitor three kinds of plug-in connections are provided: AC power connector for the AC input, two DB9-15P connectors for video signal input, and USB ports for USB communication. 3.1 1. 2. AC Power Connection 3.
3.2.3 Connecting to two computers Figure 7 shows the connection to two computers. Refer to clause 3.2.1 or 3.2.2 for the connection procedure. ENGLISH SIGNAL-B SIGNAL-A Computer A Computer B Signal Cable Signal Cable Figure 7 3.3 USB System Basic Application REAR SIGNAL-B SIGNAL-A Downstream Ports USB Cable Upstream Port Signal Cable Keyboard Camera Scanner Computer NOTE The Computer is required to have Windows® 98 or later installed and USB functions.
3.4 Installation of USB Function (a) Disconnect and connect the USB cable to the upstream port of the display monitor. (b) Cycle power of the display monitor off then on. The following procedure permits your computer to recognize or "enumerate"(A USB term) the USB HUB. 1. Power on the display monitor and then the computer. 2. Start "Enumeration" from the Windows® Desktop. NOTE If the mark appears with “Generic USB HUB”, then enumeration was unsuccessful.
4 ENGLISH 4.1 OSD (On Screen Display) FUNCTIONS How to adjust the screen The monitor has an OSD(On Screen Display) function. The following procedure shows how to adjust the screen using the OSD function.
4.2 X: Available Adjustment Items Group Icon Press the Plus Button Press the Minus Button Item Icon A B C Item − + To decrease the contrast. To increase the contrast. X X X BRIGHT To decrease the brightness. To increase the brightness. X X X COLOR To select preferable display color mode. And, to adjust the color balance at the selected color mode. CONTRAST (COLOR) − + NOTE X X X When selecting mode "sRGB", "COLOR TEMPERATURE", "CONTRAST" and "BRIGHT" are unavailable.
X: Available Group Icon Press the Minus Button Item Icon A B C − − + + CORNER PURITY(TL) To adjust the purity condition on the top-left corner. X X X CORNER PURITY(TR) To adjust the purity condition on the top-right corner. X X X CORNER PURITY(BL) To adjust the purity condition on the bottom-left corner. X X X CORNER PURITY(BR) To adjust the purity condition on the bottom-right corner. X X X MOIRE CANCEL LEVEL To decrease the level of the moire-clear wave.
5 Before calling your Authorized Product Support, please check that the items below are properly connected or set. In case of using a non-standard signal, please check the pin assignments and the signal timing of your computer with the specification outlined in Section 6. SPECIFICATIONS and Section 7. APPENDIX. TROUBLESHOOTING PROBLEM ITEMS TO CHECK LOCATION • Contrast and brightness controls. • Front • Power switch. • AC power cord disconnected. • Front • Rear • Signal cable disconnected.
ITEMS TO CHECK PROBLEM Abnormal Picture • Thin vertical black lines on one or both sides of the • screen. This minor condition is caused by grille element • overlap which can occur during shipping. ENGLISH Black vertical lines are visible on the screen. LOCATION • Position an open white window over the affected area of the screen and maximize the brightness and contrast controls. This will cause localized heating of the overlap which will clear in a few minutes.
6 SPECIFICATIONS CRT Size 55cm/22" (508mm/20" Viewable Image Size) Mask type Aperture grille Gun In-line Deflection angle 90° Phosphors Red, Green, Blue EBU (medium short persistence) Aperture grille pitch 0.24mm Phosphor pitch 0.25mm Face Plate G-WARAS Focusing method Dynamic Beam Forming (DBF) INPUT SIGNAL Video Sync 0.7Vp-p analog RGB Separate H, V sync., Composite sync., or Sync on Green SIGNAL INTERFACE Input Connectors Input Impedance DB9-15P X 2 75Ω (video), 2.2kΩ (sync.
7 Monitor Signal Input Connector (DB9-15P) 7.2 (Female) SC-B110 Signal Cable Approx. 1.8m 2 1 DB9-15P 6 12 MOUNTED ON THE REAR PANEL 4 3 9 8 7 11 13 5 10 14 15 DB9-15P(Male) DB9-15P(Male) PIN ASSIGNMENTS Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 PIN ASSIGNMENTS Signal RED VIDEO GREEN VIDEO BLUE VIDEO GROUND DDC GROUND RED GROUND GREEN GROUND BLUE GROUND NC SYNC GROUND GROUND SDA HORIZONTAL SYNC or COMPOSITE SYNC VERTICAL SYNC(VCLK) SCL 14 15 Pin No.
-1-16 - 1,2 1,2 3,4 IIvi IIvx Macintosh 3,4 1,2 2,4 1,2 3,4 2,4 2,3 1,2,3,4 1,2,3,4 1,2,3,4 2,3 3,4 2,4 3,4 3,4 1,2,6 1,2,6 1,2,6 1,2,6 2,4 3,4 1,2 1,2,6 2,4 3,4 1,2 3,4 1,2 3,4 3,4 1,2 3,4 Centris 610 650 1,2,6 1,2,6 1,2,6 1,2,6 1,2,6 1,2,6 1,2,6 1,2,6 1,2,6 3,4 1,2,6 1,2,6 1,2,6 3,4 3,4 3,4 1,2,6 3,4 6100 6100AV 8100 7100AV 6100AV 8100AV 7100AV AV 8100AV Video Card DRAM (DB-15) Video Port (HDI-45) 6410 Workgroup 8100 Server VRAM 6420 8150 Video Card 9150 (D
TABLE DES MATIERES 1. INTRODUCTION ................................................. 2-2 1.1 Caractéristiques ........................................ 2-2 ATTENTION ! 1.2 Valeurs préréglées stockées en mémoire . 2-3 Le moniteur est livré avec un cordon d’alimentation de sécurité qui doit s’utiliser sur une prise correctement mise à la terre afin d’éviter d’éventuels chocs électriques. Ne pas retirer le boîtier du moniteur : vous pouvez être exposé à des tensions élevées et à d’autres risques. 1.
1 INTRODUCTION Nous vous adressons nos félicitations pour votre achat d'un moniteur couleur haute résolution. Novs avons conçu ce moniteur de façon à ce qu’il vous assure des années de fonctionnement fiable et sans problème. • Afin de faciliter l'installation et l'utilisation, les informations concernant les fonctions de réglages sont indiquées sur le menu à l'écran (OSD).
1.2 Valeurs préréglées stockées en mémoire 1.5 Pour limiter autant que possible la nécessité d'effectuer des réglages, les standards d’affichage les plus courants ont été chargés en usine dans la mémoire du moniteur, comme le montre le Tableau 1. Dès que l’un de ces standards se trouve détecté, le centrage et la dimension de l’image sont réglés automatiquement. Toutes les valeurs préréglées en usine peuvent être modifiées au moyen des commandes accessibles à l’utilisateur.
1.7 1.9 Processus de mise en route Déballage Pour assurer la connexion, les pré-réglages (par les switches) et les réglages du moniteur à votre ordinateur, veuillez suivre le processus suivant: Une fois votre moniteur couleur déballé, vous devez vous trouver en possession des éléments représentés Figure 1, et dont la liste se trouve ci-dessous. Conserver l’emballage d’origine dans le cas ou vous seriez obliger de transporter le moniteur. 2 1 Connecter le moniteur au PC avec les câbles appropriés.
2 GLOSSAIRE 2.1 Dénomination Voir Figures 3 et 4 pour I'emplacement des commandes et voyants desitinés à l'utillisateur.Chaque commande est repérée par son numéro, et elle est décrite individuellement. 11 2 3 4 5 DEVANT DEVANT SIGNAL A/B − OSD OFF SIGNAL-B + SIGNAL-A 8 9 ARRIÈRE ARRIÉRE 10 Figure 4 Figure 3 2.2 7 Fonction des commandes 5. TOUCHES DE RÉGLAGE: Utiliser les boutons de commande pour régler l’image sur l’écran. 1.
3.2.2 Raccordement à un système de la famille Apple Macintosh Ordinateur 3 INSTALLATION ET La Figure 6 montre le câble SC-B110 et l'adaptateur ADA205 (option) au port vidéo d’un Apple Macintosh. CONNECXION 1. 2. 3 connecteurs sont disponibles en face arrière du moniteur: Le connecteur AC pour l’alimentation électrique et deux connecteurs DB9 -15P pour les entrées vidéo. 3.1 Branchement au secteur 3. Une extrémité du cordon d'alimentation doit être raccordé au connecteur de face arrière du moniteur.
3.2.3 Connexion à deux ordinateurs La figure 7 illustre la connexion à deux ordinateurs. Voir les paragraphes 3.2.1 ou 3.2.2 pour la procédure de connexion. Ordinateur B Ordinateur A Câble Signal Câble Signal Figure 7 Fonctionnement de L'USB FRANÇAIS 3.3 ARRIÈRE SIGNAL-B SIGNAL-A Câble USB Entrée basse Entrée haute Câble Signal Clavier Caméra Scanner Unité centrale NOTE L'ordinateur doit disposer de fonctions USB et de Windows® 98 ou supérieur installé.
3.4 Installation de la Fonction USB (a) Déconnecter et connecter le câble USB sur l'entrée haute du moniteur. (b) Eteindre / Allumer l'écran. La procédure suivante permet à votre ordinateur de reconnaître ou "énumérer" (un terme USB) le répartiteur USB. NOTE 1. Eteindre le moniteur et l'unité centrale. 2. Start "Enumeration" from the Windows® Desktop. Si le caractère apparaît dans le fichier "Generic USB HUB" , alors l’installation a échouée.
4 4.1 UTILISATION DES FONCTIONS Comment régler l'écran Le moniteur est pourvu d’une fonction menu à l'écran.(OSD) La procédure suivante indique comment éffectuer les réglages de l'écran à partir de la fonction Menu à l'écran. Groupe d’ic nes Menuprincipal Sous menu CONTRASTE CONTRASTE FRANÇAIS FPM OSD OFF L'OSD s'éteint automatiquement si vous n'avezé sur aucun bouton à l'expiration du délai défini dans "EXTINCTION DE L'OSD".
4.2 Adjustment Items Groupe d'icônes X: Disponibles Appuyer sur la touche de réglage: Icône Appuyer sur la touche de réglage: Objet A B C CONTRASTE Diminue le contraste. Augmente le contraste. X X X LUMINOSITE Diminue la luminosité. Augmente la luminosité. X X X COULEUR Pour sélectionner le mode d'affichage des couleurs préféré. Et pour régler la balance de couleur par rapport au mode de couleur sélectionné.
X: Disponibles Groupe d'icônes Appuyer sur la touche de réglage: Icône Appuyer sur la touche de réglage: Objet A B C PURETE COINS SUPG Réglage de la pureté dans le coin supérieur gauche. X X X PURETE COINS SUPD Réglage de la pureté dans le coin supérieur droit. X X X PURETE COINS INFG Réglage de la pureté dans le coin inférieur gauche. X X X PURETE COINS INFD Réglage de la pureté dans le coin inférieur droit. X X X Pour diminuer l'effet de moirage.
5 Avant de retourner votre moniteur auprès de votre revendur, assurez vous que les points suivants soient respectés. Dans le cas d'une utilisation sous un signal vidéo standard, veillez à la compatibilité du brochage du connecteur vidéo ainsi que des specifications êlectriques définies dans ce manuel. DEPANNAGE PROBLEME ARTICLE A CONTROLER LOCALISATION • Contrast luminosité. • Face avant LED éteinte • Interrupteur de mise en marche. • Câble d'alimentation non connecté.
ARTICLE A CONTROLER PROBLEME LOCALISATION Image Anormale Lignes fines verticales noires visibles sur un ou les deux côtés de l’écran. Ce phénomène peu important est provoqué par un chevauchement des éléments de la grille qui aurait pu se produire pendant le transport. Si vous n’obtenez aucun résultat, positionnez une fenêtre ouverte blanche sur l’endroit affecté de l’écran et maximalisez les contrôles de luminosité et de contraste.
6 SPÉCIFICATIONS TUBE COULEUR Dimensions 55cm/22" (508mm/20" Aire d'affichage) Masque Aperture grille Canon En ligne Angle de déflexion 90° Luminophones Rouge, Vert, Bleu EBU (persistance moyenne/courte) Pas 0.24mm Pas du phosphore. 0.25mm Ecran G-WARAS(Ecran anti-reflets, non diffusant, avec revêtement antistatique) Focalisation Mise en forme dynamique du faisceau SIGNAUX D'ENTREE Vidéo Sync 0.
7 7.1 APPEXES Connecteur d'entrée signal de moniteur (DB9-15P) 7.2 (Femelle) Câble signal SC-B110 Approx. 1.8m 6 MONTE EN FACE ARRIERE 14 15 PIN N° 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Configuration de l’adaptateur optionnel Macintosh AD-A205 (2) Régler les interrupteurs DIP de l’adaptateur avant de raccorder à l’ordinateur. Régler les interrupteurs DIP en fonction du graphique suivant. En suivant le graphique est possible de choisir rapidement une résolution principale.
Macintosh IIsi IIci IIvi IIvx Performa LC LCIII LC630 Quadra Quadra Quadra 6260 LCII LC475 700 610 840AV 6310 900 650 800 Centris 950 660AV 1,2 6200 7200 6300 4400 6100 6100AV 8100 7100AV 6100AV 8100AV 7100AV AV 8100AV Video Card DRAM (DB-15) Video Port (HDI-45) RÉSOLUTION ) Power Macintosh 6410 Workgroup 8100 Server VRAM 6420 8150 Video Card 9150 (DB-15) Centris 610 650 - 2-16 - 640 x480@60Hz 640 x480@67Hz 640 x480@72Hz 640 x480@75Hz 640 x480@85Hz 800 x600@60Hz 800 x600@72Hz 800 x600@75Hz 800
Registration To learn about other special offers, register online at, http://www.necmitsubishi.com/productregistration Limited Warranty NEC-Mitsubishi Electronics Display of America, Inc. (hereinafter "NMD-A") warrants this Product to be free from defects in material and workmanship and, subject to the conditions set forth below, agrees to repair or replace (at NMD-A's sole option) any part of the enclosed unit which proves defective for a period of three (3) years from the date of first consumer purchase.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. C 1C3 C 1C4 C 1C7 C 1C9 C 1D0 C 1D1 C 1D2 C 1D3 C 1D4 C 1D5 C 1D6 C 203H C 205S C 210B C 210G C 210R C 211B C 211G C 211R C 220B C 220G C 220R C 221B C 221G C 221R C 222B C 222G C 222R C 240B C 240G C 240R C 250B C 250G C 250R C 251B C 251G C 251R C 260 C 261 C 262 C 263 C 264 C 265 C 266 C 280 C 281 C 283 C 284 C 285 C 286 C 287 C 288 C 289 C 290 C 291 C 292 C 294 C 295 C 296 C 298 C 299 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. C 2C0 C 2C1 C 2D0 C 2D1 C 2D2 C 2D3 C 2D4 C 2D5 C 2D6 C 2D7 C 2D8 C 2D9 C 2E1 C 2E2 C 2E3 C 2L0 C 2L1 C 2P0 C 2P1 C 2P2 C 2P4 C 2P6 C 2P8 C 2W0 C 2W1 C 401 C 402 C 403 C 404 C 405 C 406 C 407 C 410 C 501 C 502 C 503 C 504 C 505 C 506 C 508 C 509 C 510 C 511 C 514 C 515 C 516 C 521 C 522 C 523 C 524 C 525 C 526 C 527 C 528 C 529 C 540 C 541 C 560 C 5A1 C 5A2 C 5J1 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. C 5J2 C 5J3 C 5J4 C 5J5 C 5K1 C 5L1 C 5L2 C 5L3 C 5L6 C 5M1 C 601 C 602 C 603 C 604 C 605 C 606 C 607 C 608 C 609 C 610 C 611 C 612 C 613 C 614 C 615 C 616 C 617 C 618 C 619 C 620 C 621 C 622 C 623 C 624 C 625 C 626 C 627 C 628 C 630 C 631 C 632 C 633 C 634 C 635 C 636 C 638 C 639 C 6A1 C 6A2 C 6A3 C 6A4 C 6A5 C 6A6 C 6A7 C 6A8 C 6A9 C 6B3 C 6B4 C 6B5 C 701 C 702 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. C 703 C 704 C 705 C 706 C 707 C 708 C 709 C 710 C 711 C 712 C 713 C 714 C 715 C 716 C 717 C 719 C 720 C 721 C 722 C 723 C 724 C 725 C 7A1 C 7A2 C 7B1 C 7B2 C 801 C 805 C 806 C 807 C 811 C 812 C 813 C 814 C 815 C 816 C 817 C 818 C 819 C 820 C 821 C 827 C 828 C 829 C 830 C 831 C 832 C 834 C 835 C 836 C 838 C 840 C 841 C 842 C 843 C 844 C 845 C 846 C 847 C 8A1 C 8A2 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. C 8A3 C 8A4 C 8A5 C 8A6 C 8A8 C 8A9 C 901 C 902 C 903 C 906 C 907 C 908 C 909 C 910 C 911 C 912 C 914 C 915 C 916 C 917 C 918 C 919 C 920 C 921 C 930 C 931 C 932 C 933 C 935 C 938 C 939 C 940 C 941 C 961 C 963 C 964 C 965 C 966 C 967 C 968 C 969 C 971 C 972 C 973 C 9A0 C 9A1 C 9A2 C 9A3 *** DIODE *** D 100 D 101 D 102 D 107 D 108 D 1A0 D 1A1 D 1A2 D 1A3 D 1A4 D 1A5 D 1A6 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. D 1A7 D 1A8 D 1A9 D 1B0 D 1B1 D 210B D 210G D 210R D 211B D 211G D 211R D 220B D 220G D 220R D 240B D 240G D 240R D 250B D 250G D 250R D 251B D 251G D 251R D 260 D 261 D 262 D 263 D 2C0 D 2C1 D 2C2 D 2C3 D 2C4 D 2C5 D 2H0 D 2H5 D 2V0 D 2V5 D 401 D 402 D 501 D 502 D 503 D 504 D 505 D 506 D 510 D 512 D 540 D 541 D 5A1 D 5A2 D 5J1 D 5J2 D 5J3 D 5J5 D 5K1 D 5M1 D 600 D 601 D 6A2 D 6A3 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. D 701 D 702 D 703 D 704 D 705 D 706 D 707 D 709 D 710 D 712 D 713 D 715 D 7A1 D 7B1 D 7B2 D 901 D 902 D 904 D 905 D 906 D 907 D 908 D 909 D 910 D 911 D 912 D 920 D 929 D 930 D 931 D 932 D 933 D 934 D 961 D 963 D 964 D 965 D 966 D 967 D 968 D 969 D 970 D 971 D 972 D 973 D 976 D 978 D 979 *** FUSE *** F 901 *** IC *** IC100 IC101 IC102 IC103 IC104 IC1A0 IC210 IC211 IC212 IC213 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. L 906 L 907 L 961 L 971 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 105 R 106 R 107 R 108 R 109 R 110 R 111 R 112 R 113 R 114 R 115 R 116 R 117 R 118 R 119 R 120 R 121 R 122 R 123 R 124 R 125 R 127 R 128 R 129 R 130 R 131 R 132 R 133 R 135 R 136 R 137 R 138 R 139 R 140 R 141 R 142 R 143 R 145 R 146 R 147 R 148 R 149 R 151 R 152 R 153 R 154 R 155 R 156 R 157 R 158 R 159 R 160 R 161 R 162 R 163 R 164 R 165 R 166 R 167 R 168 R 169 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 170 R 171 R 172 R 173 R 174 R 175 R 178 R 179 R 180 R 181 R 188 R 189 R 190 R 195 R 1A0 R 1A1 R 1A2 R 1A3 R 1A4 R 1A5 R 1A6 R 1A7 R 1A8 R 1A9 R 1B0 R 1B1 R 1B2 R 1B3 R 1B5 R 1B6 R 1B7 R 1B8 R 1B9 R 1C0 R 1C2 R 1C3 R 1C4 R 1C5 R 1C6 R 1C7 R 1D0 R 1D1 R 1D2 R 1D3 R 1D4 R 1X2 R 1X3 R 1X4 R 1X5 R 1X6 R 1X7 R 1X8 R 200B R 200G R 200R R 203H R 205S R 210B R 210G R 210R R 211B PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 211G R 211R R 212B R 212G R 212R R 220B R 220G R 220R R 222B R 222G R 222R R 223B R 223G R 223R R 224B R 224G R 224R R 240B R 240G R 240R R 241B R 241G R 241R R 250B R 250G R 250R R 251B R 251G R 251R R 252B R 252G R 252R R 253B R 253G R 253R R 254B R 254G R 254R R 255B R 255G R 255R R 256B R 256G R 256R R 257B R 257G R 257R R 260 R 261 R 263 R 264 R 265 R 266 R 267 R 268 R 269 R 271 R 272 R 273 R 274 R 275 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 282 R 283 R 284 R 285 R 286 R 289 R 290 R 291 R 292 R 293 R 2A1 R 2A2 R 2A4 R 2C0 R 2C1 R 2C2 R 2C3 R 2C4 R 2C5 R 2D0 R 2D1 R 2D2 R 2D3 R 2D4 R 2D5 R 2D6 R 2D7 R 2D8 R 2E0 R 2E1 R 2E2 R 2E3 R 2E4 R 2E5 R 2E6 R 2H0 R 2H1 R 2H5 R 2H6 R 2H8 R 2H9 R 2L0 R 2L1 R 2V0 R 2V1 R 2V2 R 2V5 R 2V6 R 2V8 R 2V9 R 2W0 R 2W1 R 2W2 R 2W3 R 2W4 R 2W5 R 403 R 404 R 405 R 406 R 407 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 408 R 409 R 410 R 411 R 417 R 418 R 419 R 501 R 502 R 503 R 504 R 505 R 506 R 507 R 508 R 509 R 510 R 511 R 512 R 513 R 515 R 519 R 520 R 521 R 522 R 523 R 524 R 525 R 526 R 527 R 528 R 529 R 530 R 531 R 532 R 533 R 534 R 535 R 536 R 540 R 541 R 542 R 543 R 550 R 560 R 561 R 562 R 563 R 564 R 5A3 R 5A4 R 5J1 R 5J2 R 5J3 R 5J4 R 5J5 R 5K1 R 5K7 R 5K9 R 5L1 R 5L3 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 5L4 R 5L5 R 5L6 R 5L7 R 5L8 R 5L9 R 5M1 R 5M2 R 602 R 603 R 604 R 605 R 606 R 607 R 608 R 609 R 610 R 611 R 612 R 614 R 615 R 616 R 617 R 618 R 619 R 620 R 621 R 622 R 623 R 624 R 625 R 626 R 627 R 628 R 629 R 630 R 631 R 632 R 633 R 634 R 635 R 636 R 637 R 638 R 639 R 640 R 641 R 642 R 643 R 644 R 645 R 646 R 647 R 648 R 649 R 650 R 651 R 652 R 653 R 654 R 655 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 656 R 657 R 658 R 659 R 660 R 661 R 662 R 6A1 R 6A2 R 6A3 R 6A4 R 6A5 R 6A6 R 6A7 R 6A8 R 6A9 R 6B1 R 6B2 R 6B3 R 6B4 R 6B5 R 6B6 R 6B7 R 6B8 R 6B9 R 6C1 R 6C2 R 6C3 R 6C4 R 6C5 R 6C6 R 6C7 R 6C8 R 6C9 R 6D1 R 6D2 R 6D3 R 6D4 R 6D5 R 6D6 R 6D7 R 701 R 702 R 703 R 704 R 705 R 706 R 707 R 708 R 709 R 710 R 711 R 712 R 713 R 714 R 715 R 716 R 717 R 718 R 719 R 720 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 722 R 723 R 724 R 725 R 726 R 727 R 728 R 730 R 735 R 736 R 737 R 738 R 739 R 741 R 7A1 R 7A2 R 7A3 R 7A4 R 7A5 R 7A6 R 7B1 R 7B2 R 7B5 R 7B6 R 7B7 R 7B9 R 802 R 803 R 809 R 811 R 813 R 817 R 818 R 820 R 823 R 825 R 826 R 827 R 828 R 829 R 831 R 832 R 833 R 8A2 R 8A3 R 8A4 R 8A5 R 8A6 R 8A7 R 8A9 R 8B1 R 8B2 R 8B3 R 8B4 R 8B7 R 903 R 904 R 905 R 906 R 907 R 908 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 909 R 910 R 911 R 912 R 913 R 914 R 915 R 916 R 917 R 918 R 919 R 920 R 921 R 922 R 923 R 924 R 925 R 926 R 927 R 928 R 929 R 930 R 931 R 932 R 933 R 934 R 935 R 936 R 937 R 938 R 939 R 941 R 944 R 946 R 947 R 950 R 951 R 952 R 960 R 961 R 962 R 963 R 964 R 965 R 966 R 967 R 968 R 969 R 970 R 971 R 972 R 973 R 974 R 975 R 976 R 977 R 978 R 979 R 980 R 981 R 984 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. R 985 R 986 R 989 R 990 R 991 R 993 R 994 R 995 R 996 R 997 PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. PART NO.
All Parts List MODEL NO. Diamond Pro 2060u (NSZ2107STTUW) SYMBOL NO. PART NO.
