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Service Manual
             ViewSonic VA702/b
                                       Model No. VS10781
                    17" Color TFT LCD Display




                                                         (VA702/b_SM Rev. 1a Oct. 2005)


ViewSonic 381 Brea Canyon Road, Walnut, California 91789 USA - (800) 888-8583
   Copyright

   Copyright    2005 by ViewSonic Corporation. All rights reserved. No part of this publication may be
   reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or
   computer language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical,
   manual or otherwise, without the prior written permission of ViewSonic Corporation.


   Disclaimer

   ViewSonic makes no representations or warranties, either expressed or implied, with respect to the
   contents hereof and specifically disclaims any warranty of merchantability or fitness for any particular
   purpose. Further, ViewSonic reserves the right to revise this publication and to make changes from time
   to time in the contents hereof without obligation of ViewSonic to notify any person of such revision or
   changes.


   Trademarks

   Optiquest is a registered trademark of ViewSonic Corporation.
   ViewSonic is a registered trademark of ViewSonic Corporation.
   All other trademarks used within this document are the property of their respective owners.




                                         Revision History
   Revision   SM Editing Date   ECR Number                         Description of Changes                  Editor

     1a          10/20/05                    Initial Release                                               G. Han




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                                                               i
                                    TABLE OF CONTENTS


         1. Precautions and Safety Notices                                       1

         2.   Service Tools & Equipment Required                                 3

         3.   Circuit Theory                                                    4

         4.   Disassembly & Assembly                                            14
         5.   Test and Adjustment                                               19
         6.   Troubleshooting                                                   24

         7.   Recommended Parts List                                            32

         8.   Schematic Diagrams                                                42

         9.   PCB Layout Diagrams                                               48




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                                          ii
1. Precautions and Safety Notices

1. Appropriate Operation

      (1)    Turn off the product before cleaning.
      (2)    Use only a dry soft cloth when cleaning the LCD panel surface.
      (3)    Use a soft cloth soaked with mild detergent to clean the display housing.
      (4)    Use only a high quality, safety approved AC/DC power cord.
      (5)    Disconnect the power plug from the AC outlet if the product will not be used for a long period of time.
      (6)    If smoke, abnormal noise, or strange odor is present, immediately switch the LCD display off.
      (7)    Do not touch the LCD panel surface with sharp or hard objects.
      (8)    Do not place heavy objects on the LCD display, video cable, or power cord.
      (9)    Do not use abrasive cleaners, waxes or solvents for your cleaning.
      (10)   Do not operate the product under the following conditions:
             - Extremely hot, cold or humid environment.
             - Areas containing excessive dust and dirt.
             - Near any appliance generating a strong magnetic field.
             - In direct sunlight.

2. Caution
 No modification of any circuit should be attempted. Service work should only be performed after you are thoroughly familiar
 with all of the following safety checks and servicing guidelines.

3. Safety Check
 Care should be taken while servicing this LCD display. Because of the high voltage used in the inverter circuit, the voltage is
 exposed in such areas as the associated transformer circuits.


4. LCD Module Handling Precautions

    4.1 Handling Precautions
     (1) Since front polarizer is easily damaged, pay attention not to scratch it.
     (2) Be sure to turn off power supply when connecting or disconnecting input connector.
     (3) Wipe off water drops immediately. Long contact with water may cause discoloration or spots.
     (4) When the panel surface is soiled, wipe it with absorbent cotton or other soft cloth.
     (5) Since the panel is made of glass, it may break or crack if dropped or bumped on hard surface.
     (6) Since CMOS LSI is used in this module, take care of static electricity and ensure human earth when handling.
     (7) Do not open or modify the Module Assembly.
     (8) Do not press the reflector sheet at the back of the module in any direction.
     (9) In the event that a Module must be put back into the packing container slot after it was taken out of the
          container, do not press the center of the CCFL Reflector edge. Instead, press at the far ends of the
          CFL Reflector edge softly. Otherwise the TFT Module may be damaged.
     (10) At the insertion or removal of the Signal Interface Connector, be sure not to rotate or tilt the Interface
          Connector of the TFT Module.




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      (11) After installation of the TFT Module into an enclosure (LCD monitor housing, for example), do not twist or
           bend the TFT Module even momentarily. When designing the enclosure, it should be taken into consideration
           that no bending/twisting forces may be applied to the TFT Module from outside. Otherwise the TFT Module
           may be damaged.
      (12) The cold cathode fluorescent lamp in the LCD contains a small amount of mercury. Please follow local
            ordinances or regulations for disposal.
      (13) The LCD module contains a small amount of materials having no flammability grade. The LCD module
           should be supplied with power that complies with the requirements of Limited Power Source
           (IEC60950 or UL1950), or an exemption should be applied for.
      (14) The LCD module is designed so that the CCFL in it is supplied by a Limited Current Circuit (IEC60950
           or UL1950). Do not connect the CCFL to a Hazardous Voltage Circuit.




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2. SERVICE TOOLS & EQUIPMENT REQUIRED
1. SIGNAL GENERATOR
2. MULTIMETER
3. SCREW DRIVER
4. OSCILLOSCOPE
5. Soldering IRON
6. SOLDER
7. VGA Cable (Black, 15pins point to point)
8. Color Analyzer
9. ISP Board
10. EDID Board
11. FOXISP. EXE file
12. EDID program file
13. Power Adapter output 5V/2A




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3. CIRCUIT THEORY
1. Block Diagram




           TFT LCD Panel 17"
           MT170EN01(Innolux)
                                                                                                Block Diagram

        Lamp1                Lamp2                                                          12V                                                                        Panel Interface
   1




                                                                                                      Power
                                              2                                                                           5V
                                                                                Rectifier &
                                                                               Filter Circuit
                                                                                                 5V
                                                                                                                                                            AP2301
                                                                                                                                                           PMBT3906
                                                                                                                                            LDO
                                                                                                                 24C16                     5V-3.3V
                                                                Power           Feedback                                                   5V-1.8V
                                                             Transformer          OVP
   Transformer1
                                                                                                                                            Panel Enable
                                                                                                                                            On/Off
                                              Brightness




                                                                                                                                MCU                                    Scaler        Brightness
                                                                                                                               W78E65p                                TSU16AK
                             On/Off




                                                                                                                                                       XTAL2
       AOP605L
                                                                                                                                                     14.318MHz
                                                               Rectifier &
                             OZ9910                                              LTV817
                                                              Filter Circuit

       AOP605L
                                                                                                                                      XTAL1
                                                                                                                                    22.118MHz



   Transformer2
                              Open
                            Protection
                                                                                TOP246Y
                                                             AC Line Filter
                                                                                OPP/OCP
                                                                                                                                                      24C02

                        4     3           2        1




   3                                  4

                                                                                                               Keypad
        Lamp3                Lamp4                             AC Socket                                                                                          VGA Connector
                                                                                                              Connector


                                                                                                              Keyboard                                                VGA Input
                                                           AC Input 90V-264V




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2. Electronic Circuit Theory
 2.1 Switching Mode Power Supply
 2.1.1 AC Current Input Circuit
     P801 is a connector for connecting AC Power. F801 is a fuse to protect all the circuit. AC input voltage
     is from 90V to 264V. R820 and R821 joined between two inputting main circuit to prevent man from
     shock. L801 is used to clear up low frequency wave. C801 and C806 are used to discharge the waves
     that L801 produced. High frequency waves are damped by C801 and C806. D801 is a rectifier which
     composed of 4 build-in diodes, it inverts AC to DC.
 2.1.2 High Voltage to Low Voltage Control Circuit
     C805 is used to smooth the wave from rectifier. IC802 is a highly integrated PWM controller, which
     build-in a power MOSFET. When rectified DC high voltage is applied to the DRAIN pin during start-up,
     the MOSFET is off initially, and the CONTROL pin capacitor is charged through a switched high
     voltage current source connected internally between the DRAIN and CONTROL pins. When the
     CONTROL pin voltage Vc reaches approximately 5.8V, the control circuitry is activated and the
     soft-start begins. The soft-start circuit gradually increases the duty cycle of the MOSFET from zero to
     the maximum value over approximately 10ms. If no external feedback/supply current is fed into the
     CONTROL pin by the end of the soft-start, the high voltage current source is turned off and the
     CONTROL pin will start discharging in response to the supply current drawn by the control circuitry.
    Resistor R803, R807, R824 and R825 are for line over voltage shut-down (OVP) and line under-voltage
    detection (UVP).Resistors R801, R805, R822, and R823 are for external current limit adjustment, and
    used to reduce the current limit externally to a value close to the operating peak current of primary about
    1.35A. The mean is power will protected when the primary current over about 1.35A.
    When PWM is turned off, the main current flow will be consumed through D804 and ZD802, This will
    prevent MOSFET which built-in IC802 from being damaged under large current impulse and voltage
    spike.
    D806 and C815 provide internal Auxiliary current to CONTROL pin during normal operation. In
    addition, error amplifier and feedback current to the CONTROL pin are for duty cycle control.
 2.1.3 DC_5V and DC_14V Output Circuit
     For DC 5V, D805 is used to rectify the inducted current. R806 and C811 are used to store energy when
     current is reversed. The parts including C812, C814, C822, C821, B801 and L803 are used to smooth
     the current waves.
     For DC 14V, D803 is used to rectify the inducted current. R802 and C802 are used to store energy when
     current is reversed. The parts including C808, C810 and L802 are used to smooth the current waves.
 2.1.4 Feedback and OVP Protect Circuit
     Pin R of IC803 is supplied 2.5V stable voltage. It is connected to 5V and 14V output through R811,
     R810 and R818. R811, R810 and R818 are output sampling resistor. When the sampling voltage more
     than 2.5V or less than 2.5V, feedback current of IC802 will change, this can change the voltage from
     transformer T801.
    For 5VDC output OVP, ZD803 is a zener diode, when 5V output voltage becomes up to 5.6V, the zener
    current cause R819 voltage become up to 0.7V, Q801 is triggered and OVP starts. For 12VDC output
    OVP, ZD804 is a Zener Diode, when 14V output voltage becomes up to 16V, the zener current cause
    R819 voltage become up to 0.7V, Q801 is triggered and OVP starts. The collector current of Q801 is
    used to make build-in diode light. FB Current of IC802 will be changed; it can change the voltage from
    T801.
    Q802, R827, R828 and ZD801 make up of dummy loading circuit. For start-up sequence, during 5V
    output take place high loading first, this dummy loading circuit operated to insure 14V not be increased.

2. 2 Inverter circuit
  2.2.1 Low voltage to high voltage circuit
     12VDC supplies the power to IC501 through F501; the control signals that BRIGHTNESS and ON/OFF
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     come from I/F board. ON/OFF signal connect to pin8 of IC501 and makes IC501 enabled.
     BRIGHTNESS is connected to pin7 of IC501 to adjust the panel luminance. R524, R529, C505 make
     up of a delay-time circuit and R528, R523, R524 make up of a voltage divided circuit. C504 is used to
     filter the high frequency noise. The operation frequency is determined by R522 and C529. For BURST
     MODE, its dimming frequency is determined by R527 and C506. C502 is used for soft start and
     compensation, C502, C528 are used to filter noise.
     The output drives, including NDR4, NDRV2, PDRV3, PDRV1 (pins1, 3, 15, 16 respectively), generate a
     square pulses to drive MOSFET U501, U502. And U501, U502 works as full-bridge topology, it is high
     efficient, zero voltage switch.
     During start up, VSEN (pin9) detects the voltage at the transformer secondary. When VSEN reaches
     3.0V, the output voltage is regulated. If no current is detected for around 1.5 seconds, IC501 will shut
     down.
     The current flowing through CCFL is detected and regulated through sense resistor R509, R511. The
     feedback voltage through R506, R507, and C508 connected to Pin11 (ISEN), and then compared with a
     reference voltage (1.5V) via a current amplifier, resulting in PWM drive outputs to full-bridge switches.
  2.2.2 Protection circuit
     Over Voltage Protection: R501and R502 are connected in high voltage output connector, the divided AC
     voltage is inverted DC voltage through D508, R505 and C507are used to rectify wave & dump noise.
     Then the voltage signal reaches Pin9 VSEN of IC501, when the voltage changes, build-in PWM of
     IC501 will adjust output voltage.
     Open Lamp Protection: In normal operation, the resistors R510, R511, R512, R509 are sensed a high
     level AC voltage, the AC signal IS1 invert DC voltage through D509, R515, C533, and the high level
     DC voltage reaches the gate pin of Q502, similarly, the gate pin of Q503, Q504, Q505 has high level DC
     voltage. So the gate pin of Q501 has a low level voltage, and the IC501 is normal operation. Once one
     of signal IS1, IS2, IS3, and IS4 is low, the voltages of Q501 gate pin is high level, and make the voltage
     of ISEN low level, the IC501 will shut down.

2.3 I/F Board Circuit
  2.3.1 Power Input
     +5V is from the power board and supply for U101(FS8860-18PJ)U102(FS8860-33PJ)
     U105(MCU:W78E65P) and panel. +3.3V output is generated from +5V through C169 and C102
     filtering, and U102 outputs. +3.3V is used for U104 (Scaler: TSU16AK). +1.8V output is generated
     from +5V through C169, C105 and C102 filtering, and U101 outputs. +1.8V is also used for U104.
  2.3.2 MCU (W78E65P)
     VDD is +5V and its frequency of XTAL1 is 22.1184MHz. U105 #2 is defined as panel-enable. When
     the I/O port is low, Q101 and Q102 are conducted. And then after C109 and C110 filtering, obtain the
     voltage of VLCD, which will be connected to CN103. U105 #3 is defined as CCFL-enable. When the
     I/O port is low, Q103 is pulled up and the backlights are on; When the I/O port is high, Q103 is
     conducted and the backlights are off. U105 #4 is defined as DET-VGA, connected with CN102 #5.
     U105 #14, #36, #37, #38, #39, #40, #41, #42, #43 are the communications with U104 (Scaler), which
     are connected to #72, #31, #78, #77, #30, #70, #71, #69, #32 of Scaler. U105 #43 outputs reset signal to
     U104 (Scaler).
     U106 is EEPROM used for saving EDID data, which is connected by SCL and SDA pins with #16 and
     #17 of MCU. Connect #12 to #26 of U105 for ISP.
  2.3.3 Scaler (TSU16AK)
     The frequency of XTAL2 is 14.318MHz. U104 #1, #102-#103, #106-#113, #118-#125, #128 output
     LVDS digital data of 8 bit to panel control circuit through CN103. U104 #73 generates a PWM
     waveform by regulating the duty to control the brightness of the backlights. U104 #30-#32, #69-#72,
     #77-#78 are the communications with U105 (MCU) that are connected to #36-#43 of MCU. These
     communications include HWRESET, CSZ/ALE, SCL/RDZ, SDA/WRZ, and AD0-AD3.
  2.3.4 VGA Input
     Signal R, G, B, SOG input through CN102 #1, #2, #3, and C115, C116, C117 and C118 filtering the
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    high frequency noise. Signal HSYNC and VSYNC input through CN102 #13 and #14, and C119, R119,
    C120, R120 filtering. Then the analog signal enters U104, and then U104 deals with it internally. In
    addition, TVS101, TVS102, TVS103 (the three are BAV99), TVS104, TVS105, TVS106, TVS107 (they
    are constant voltage diode of 5V6) are ESD protector. Signal DDC-SCL inputs via CN102 #15, and then
    passes through TVS107 for ESD protection, goes into EDID EEPROM IC U103. Signal DDC-SDA
    inputs via CN102 #12, and then passes through TVS106 for ESD protection, goes into EDID EEPROM
    IC U103. CN102 #5 is defined as cable detect pin, this detector realizes via R107 and U105 #4. The
    PC-5V of U103 is supplied by PC via CN103 #9 with D103 for ESD protection, or supplied by Monitor
    self via D104.U103 is an EEPROM IC, which is a kind of memory and used for saving EDID data.
  2.3.5 Button Control
     Button "Key-Power" is defined as power on/off, which is connected to U105 #24 through CN106 #4.
     Button "Key-2" is defined as two functions of selecting and adjustment, which is connected to U105
     #25 through CN106 #1.
     Button "Key-Up" is defined as plus, which is connected to U105 #26 through CN106 #3.
     Button "Key-Down" is defined as minus, which is connected to U105 #27 through CN106 #5.
     Button "Key-1" is defined as two functions of menu and exit, which is connected to U105 #28 through
     CN106 #2.
     LED indicator on the front bezel is defined as follows:
     a. When press button "Key-Power", U105 #6 is pulled down and U105 #7 is pulled high, so Q104 is
        conducted and the LED indicator is green.
     b. When in power-saving mode, U105 #6 is pulled high and U105 #7 is pulled down, so Q105 is
        conducted and the LED indicator is orange.

3. FACTORY PRESET TIMING TABLE

                                           H-Freq.           V-Freq.           Dot Clock
            Item         Resolution
                                            (KHz)             (Hz)              (MHz)
              1           640 x 350        31.5kHz            70Hz               25.2
              2           640 x 400       31.5kHz             60Hz               25.2
              3           640 x 400       31.5kHz             70Hz               25.2
              4                           24.7kHz             50Hz               19.8
              5                           31.5kHz             60Hz               25.2
              6                           35.0kHz             67Hz               30.2
                          640 x 480
              7                           37.9kHz            72Hz,               31.5
              8                           37.5kHz            75Hz,               31.5
              9                           43.27kHz            85Hz               36.0
             10           720 x 400        31.5kHz            70Hz               28.3
             11                            35.1kHz            56Hz               36.0
             12                            37.9kHz            60Hz               40.0
             13           800 x 600        48.1kHz            72Hz               50.0
             14                            46.9kHz            75Hz               49.5
             15                            53.7kHz            85Hz               56.3
             16           832 x 624        49.7kHz            75Hz               57.3
             17                            48.4kHz            60Hz               65.0
             18                            56.5kHz            70Hz               75.0
             19                            58.1kHz            72Hz               78.5
                         1024 x 768
             20                            60.0kHz            75Hz               78.8
             21                           68.67kHz            85Hz               94.5
             22          1152 x 870        68.6kHz            75Hz               100
             23                            63.4kHz            60Hz               108
                         1280 x 1024
             24                           79.97kHz            75Hz               135
             25          1280 x 720         45kHz             60Hz               74.2
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4. Power On/Off Sequence
 4.1 Hardware Power ON
     When power cord is plugged into AC socket, SMPS starts work and provides U105 and U106 with
     VCC5V. When VCPU inputs to U105, U105 resets circuit active, sets U105 all registers to preset modes,
     and then U105 #43 sends out a HWRESET signal voltage to reset U104, and then monitor goes into
     stand-by mode. That means hardware power on has been completed.


 4.2 Software Power ON/OFF
     When press power key, U105 #24 recieves low pulse, and sends out "Power on/off" order back to U104,
     and then U104 will do the power on/off.
     - If Power ON, U105 #6 (LED_Green) will send out High potential, and then LED green on.
     - If Power OFF, U105 #7 (LED_Orange) will send out High potential, and then LED Orange on.
     The Panel_Vcc, Backlight_En, CLK/DATA output to panel will follow the following sequency.




                  T1 (ms)   T2 (ms)   T3 (ms)   T4 (ms)      T5 (ms)      T6 (ms)      T7 (ms)
                  0.1~10     0~10      >200      >100         0~50        0.1~10        >1000

5. AC Outlet Pin Assignment

                                      Pin        Symbol                  Description
         3




                                        1              L                    Live
     1            2                     2              N                   Neutral
                                        3              E                    GND
           P801



6. Inner Connector Pin Assignment
 6.1 CN501, CN502, CN503, CN504 (Connect to Panel Backlight, SM02B-BHSS-1-TB or equivalent)
    Pin        Symbol                            Description
     1           H.V.                        High voltage for lamp
     2           L.V.                        Low voltage for lamp

 6.2 CN101 (Power BD to Interface BD)
    Pin
               Symbol                                      Description
    No.
    1,2   +5V (VCC5V)          +5.2V output
    3,6   GND                  Ground
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    4      BRIGHTNESS         Brightness Control
    5      ON/OFF             CCFL on/off Control

6.3 CN106 (Interface BD to Keypad)
   Pin
                Symbol                             Description
   No.
    1    KEY_SELECT/AUTO Select control and auto adjustment control
    2    KEY_MENU/EXIT          OSD page selection and exit
    3    KEY_UP                 OSD "" control to adjust value to increase
    4    KEY_POWER              DC power on/off control
    5    KEY_DOWN               OSD "" control to adjust value to decrease
    6    LED_GREEN              Green LED lighting control
    7    GND                    Ground
    8    LED_ORANGE             Orange LED lighting control

6.4 CN103 (Connect I/F BD to panel, FI-X30S-H or Equivalent)
 Pin No.      Symbol                               Function
    1     RXO0-               minus signal of odd channel 0(LVDS)
    2     RXO0+               plus signal of odd channel 0(LVDS)
    3     RXO1-               minus signal of odd channel 1(LVDS)
    4     RXO1+               plus signal of odd channel 1(LVDS)
    5     RXO2-               minus signal of odd channel 2(LVDS)
    6     RXO2+               plus signal of odd channel 2(LVDS)
    7     GND                 Ground
    8     RXOC-               minus signal of odd clock channel (LVDS)
    9     RXOC+               plus signal of odd clock channel (LVDS)
   10     RXO3-               minus signal of odd channel 3(LVDS)
   11     RXO3+               plus signal of odd channel 3(LVDS)
   12     RXE0-               minus signal of even channel 0(LVDS)
   13     RXE0+               plus signal of even channel 0(LVDS)
   14     GND                 Ground
   15     RXE1-               minus signal of even channel 1(LVDS)
   16     RXE1+               plus signal of even channel 1(LVDS)
   17     GND                 Ground
   18     RXE2-               minus signal of even channel 2(LVDS)
   19     RXE2+               plus signal of even channel 2(LVDS)
   20     RXEC-               minus signal of even clock channel (LVDS)
   21     RXEC+               plus signal of even clock channel (LVDS)
   22     RXE3-               minus signal of even channel 3(LVDS)
   23     RXE3+               plus signal of even channel 3(LVDS)
   24     GND                 Ground
   25     GND                 Ground
   26     GND                 Ground or Open
   27     GND                 Ground
   28     VCC                 Power supply (5.0 V)
   29     VCC                 Power supply (5.0 V)
   30     VCC                 Power supply (5.0 V)

6.5 CN102 (D-SUB Connector)

  Pin          Symbol         Pin         Symbol          Pin           Symbol
   1     Red video input      6     Red GND               11     NC
   2     Green video input    7     Green GND             12     Serial data (SDA)
   3     Blue video input     8     Blue GND              13     H / H+V SYNC
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    4     NC                  9          +5V(from PC)         14     VSYNC
    5     Cable Detect        10         GND                  15     Data clock line (SCL)

7. Key Parts Pin Assignment
 7.1 IC802 (TOP246Y, Power Control IC)
    Pin      Symbol     I/O                          Description
     1         C          I   Control
     2         L          I   Line Sense
     3         X          I   External Current Limit
     4         S         O    Source of MOSFET(GND)
     5         F          I   Frequency
     6         D          I   Drain of MOSFET


 7.2 IC501 (OZ9910G, CCFL inverter controller IC)
  Pin No.    Symbol     I/O                           Description
                              Bottom MOSFET gate drive output in dual forward
     1       NDRV4       O
                              converter
     2       PGND             High-current power ground
                              Bottom MOSFET gate drive output in dual forward
     3       NDRV2       O
                              converter
     4       GNDA             Low-current signal ground
     5         CT         I   Timing capacitor of high frequency oscillator
     6         LCT        I   Timing capacitor of set LPWM frequency
     7         ADJ        I   Control command input 



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