Semiconductor ML9052 This version: Jun. 1999 ML9052 132-Chan
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E2B0052-19-66 Semiconductor
Semiconductor ML9052
This version: Jun. 1999 ML9052
132-Channel Driver with Built-in Matrix Displays
ML9052 matrix graphic devices carrying display. This drive matrix graphic panel under control 8-bit microcontroller. Since functions necessary driving type device incorporated single chip, using ML9052 makes possible implement type matrix graphic system with only chips. Since method, which display data turns display panel, employed, possible carry displays with high degree freedom such Chinese character displays, etc. With single device, possible construct graphic display system with maximum dots. display expanded further using devices. ML9052 with built-in RAM, which fabricated using CMOS process, achieves lowpower operation ideally suitable displays battery-operated portable equipment. ML9052 common signal outputs segment signal outputs single device drive display dots. This device resistant radiation light.
FEATURES
Direct display data using method Display data displayed Display data displayed Display capacity 12804 dots drive circuits common outputs, segment outputs Microcontroller interface: select 8-bit parallel serial interface Built-in voltage multiplier circuit drive power supply Built-in drive power supply adjustment circuit Built-in drive bias resistors Line inversion drive/frame inversion drive (selected command) Built-in oscillator circuit (Internal oscillator/external clock input) variety commands Read/write display data, display ON/OFF, normal/reverse display, dots ON/all dots OFF, page address, display start address, etc. Power supply voltage Logic power supply: VDD-VSS Voltage multiplier reference voltage: VIN-VSS (5-times multiplier 6-times multiplier 7-times multiplier drive voltage: VBI-VSS Package: Gold bump chip,
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Semiconductor
ML9052
BLOCK DIAGRAM
SEG131 COM95
VC1+ VS1- VC2+ VS2- Display Data Latch Circuit Output State Selection Cricuit Drivers Drivers
Display Timing Generator Circuit
COMS
COMS
COM0
SEG0
Power Supply Circuit
Page Address Circuit
VC3+ VC4+ VC5+ VC6+ VOUT
Display Data
Oscillator Circuit
Column Address Circuit
Line address circuit
Buffer
Holder
Command Decoder
Status
lnterface
WR(R/W)
D6(SCL)
D7(SI)
RD(E)
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Semiconductor
ML9052
DESCRIPTION
Function
name
Number pins
Description This 8-bit bi-directional data that connected 8-bit 16-bit standard data bus. When serial interface selected (P/S "L"): Serial data input (SI) Serial clock input (SCL) this case, will Hi-Z state. will Hi-Z state when chip select inactive state.
Interface
Normally, lowest address connected used distinguishing between data commands. "H": Indicates that display data. "L": Indicates that control data.
Initial setting made making "L". reset operation made during active level signal. These chip select signals. Chip Select becomes active when also allows input/output data commands.
active level this signal when connected 80-series MPU. This terminal connected signal 80-series MPU, data ML9052 goes into output state when this signal "L". active level this signal when connected 68-series MPU. This will Enable clock input when connected 68series MPU.
(R/W)
active level this signal when connected 80-series MPU. This terminal connected signal 80-series MPU. signal data latched into ML9052 rising edge signal. When connected 68-series MPU, this becomes input Read/Write control signal. "H": Read, "L": Write
This selecting interface type. "H": 68-Series interface. "L": 80-Series interface.
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Semiconductor
ML9052
Function
name
Number pins
Description This selecting parallel data input serial data input. "H": Parallel data input. "L": Serial data input. pins have following functions depending state input. Data/command Data (D7) Read/Write Write only Serial clock (D6)
Interface
When "L", will into Hi-Z state. this condition, data lines "H", "L", open. pins (R/W) should tied either level level. During serial data input, possible read display data RAM. Oscillator Circuit This selecting whether enable disable internal oscillator circuit display clock. "H": internal oscillator circuit enabled. "L": internal oscillator circuit disabled (External input). When "L", display clock input Display Timing Generator Circuit This selecting whether master operation slave operation made towards ML9052. During master operation, synchronization with display system achieved inputting timing signals necessary display. "H": Master operation "L": Slave operation functions different circuits pins will follows depending states signals. Oscillator circuit Enabled Disabled Disabled Disabled Power supply circuit Enabled Enabled Disabled Disabled
Output Output Output Output Input Output Output Output Input Input Input Output Input Input Output Input
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Semiconductor
ML9052
Function
name
Number pins
Description This display clock input/output pin. function this will follows depending states signals. Input Input Input
Display Timing Generator Circuit
Output
When ML9052 used master/slave mode, corresponding connected. This input/output display frame reversal signal. "H": Output "L": Input When ML9052 used master/slave mode, corresponding connected. This blanking control display. "H": Output "L": Input When ML9052 used master/slave mode, corresponding connected. Power Supply Circuit This output static drive. This used combination with pin. This selecting resistor adjusting voltage "H": internal resistor used. "L": internal resistor used. voltage adjusted using external potential divider resistors connected pins This effective only master operation. This tied level during slave operation. This power control drive power supply circuit. "H": Normal mode "L": High power mode This effective only during master operation mode. This tied level during slave operation. This tied power supply terminal VCC. This connected system ground (GND). This reference power supply voltage multiplier circuit driving LCD.
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Semiconductor
ML9052
Function
name
Number pins
Description This external input VREG power supply power supply voltage adjustment circuit. This effective only case optional devices with VREG external input option.
Power Supply Circuit
VOUT
These output pins during voltage multiplication. Connect capacitor between these pins VSS. These multiple level power supply pins power supply. voltages specified cells applied these pins after resistor network voltage division after impedance transformation using operational amplifiers. voltages specified taking reference, following relationship should maintained among them. Master operation: When power supply following voltages applied from built-in power supply circuit. selection voltages determined bias command. ML9052 10/11 9/11 2/11 1/11
Voltage adjustment pins. Voltages between applied using resistance voltage divider. These pins effective only when internal resistors voltage adjustment used (IRS "L"). these pins when internal resistors voltage adjustment used (IRS "H").
VC1+
These pins connecting positive side capacitors voltage multiplication. Connect capacitors between VS1- these pins.
VS1-
These pins connecting negative side capacitors voltage multiplication. Connect capacitors between these pins VC1+, VC3+, VC5+.
VC2+
These pins connecting positive side capacitors voltage multiplication. Connect capacitors between VS2- these pins.
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Semiconductor
ML9052
Function
name VS2-
Number pins
Description These pins connecting negative side capacitors voltage multiplication. Connect capacitors between these pins VC2+, VC4+, VC6+ (during 7-times voltage multiplication).
Power Supply Circuit
VC3+
These pins connecting positive side capacitors voltage multiplication. Connect capacitors between VS1- these pins.
VC4+
These pins connecting positive side capacitors voltage multiplication. Connect capacitors between VS2- these pins.
VC5+
These pins connecting positive side capacitors voltage multiplication. Connect capacitors between VS1- these pins.
VC6+
These pins connecting positive side capacitors voltage multiplication. Connect capacitors between VS2- these pins (during 7-times voltage multiplication). 6-times voltage multiplication, connect these pins VOUT pin.
Drive Output
SEG0 SEG131
These segment drive outputs. levels among selected depending combination display content signal. Data Power save Output voltage Normal display Reverse display
COM0 COM95
These common drive outputs. levels among selected depending combination scan data signal. Scan data Power save Output voltage
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Semiconductor
ML9052
Function
name COMS
Number pins
Description These output pins only indicators. Both pins output same signal. Leave these pins open when they used. same signal output both master slave operation modes.
Drive Output Test
TEST0 TEST1
These pins testing chip. Leave these pins open during normal use.
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Semiconductor
ML9052
FUNCTIONAL DESCRIPTION
Interface Selection interface type ML9052 carries data transfer using either 8-bit bi-directional data serial data input line (SI). Either 8-bit parallel data input serial data input selected shown Table setting level. Table
Parallel Input Serial Input (HZ)
hyphen indicates that tied level. Parallel interface When parallel interface selected, (P/S "H"), possible connect this directly either 80-series 68-series shown Table depending whether "L". Table
68-Series 80-Series
data signals identified shown Table below depending combination signals RD(E), WR(R/W) Table Table
Common 68-Series Display Data Read Display Data Write Status Read Control Data Write (command) 80-Series
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Semiconductor Serial interface
ML9052
When serial interface selected (P/S "L"), serial data input (SI) serial clock input (SCL) accepted chip active state (CS1 "H"). serial interface consists 8-bit shift register 3-bit counter. serial data read from serial data input sequence rising edge serial clock input, converted into parallel data rising edge serial clock pulse processed further. identification whether serial data display data command judged based input, data treated display data when command when "L". input read identified rising edge serial clock pulse after chip become active. Fig. shows signal chart serial interface. (When chip active, shift register counter reset their initial states. data read possible case serial interface. necessary take sufficient care about wiring termination reflection external noise case signal. recommend verification operation actual unit.)
Figure Chip select ML9052 chip select pins CS2, interface serial interface enabled only when "H". When chip select signals inactive state, lines will high impedance state inputs will effective. When serial interface been selected, shift register counter reset when chip select signals inactive state. Accessing display data internal registers Accessing ML9052 from side requires merely that cycle time (tCYC) satisfied, high speed data transfer without requiring wait time possible. Also, during data transfer with MPU, ML9052 carries type pipeline processing between LSIs holder associated with internal data bus. example, when writes data display data RAM, data temporarily stored holder, then written into display data before next data read cycle. Further, when reads data display data RAM, first dummy data read cycle carried temporarily store data holder which then placed system read during next read cycle. There restriction read sequence display data RAM, which that read instruction immediately after setting address does read data that address, that data output data address specified during second data read sequence, hence care should taken about this during reading. Therefore, always dummy read necessary immediately after setting address after write cycle. This relationship shown Figs 2(a) 2(b). 10/64
Semiconductor Data write
ML9052
DATA
Latch
Internal timing
Holder Write Signal
Figure 2(a) Data read
DATA Address Preset
Internal timing
Read Signal Column Address Holder Preset Increment
Address
Dummy Read
Data Read
Data Read #n+1
Figure 2(b) Busy flag busy flag being indicates that ML9052 carrying internal operations, hence instruction other than status read instruction accepted during this period. busy flag output when status read instruction executed. cycle time (tCYC) established, there need check this flag before issuing every command hence processing performance increased greatly.
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Semiconductor Display data
ML9052
Display data This storing data display organization pages bits bits. possible access required specifying page address column address. Since display data from correspond display direction common lines shown Fig. there fewer restrictions during display data transfer when ML9052 used multiple chip configuration, thereby making easily possible implement display with high degree freedom. Also, since display data read/write from side carried buffer, done independently signal read operation drive. Consequently, display affected flickering, etc., even when display data accessed asynchronously during display operation.
Display data COM0 COM1 COM2 COM3 COM4 Display
Figure Page address circuit page address display data specified using page address command shown Fig. Specify page address again when accessing after changing page. page address (D3, area dedicated indicator, only display data valid this page. Column address circuit column address display data specified using column address command shown Fig. Since specified column address incremented every time display data read/write command issued, access display data continuously. Further, incrementing column address stopped column address 83H. Since column address page address independent each other, necessary, example, specify separately page address column address when changing from column page column page Also, shown Table possible reverse correspondence relationship between display data column address segment output using command (the segment driver direction select command). This reduces placement restrictions time assembling modules. Table
Output SEG0 83(H) Column Address SEG131 0(H) 0(H) Column Address 83(H)
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Semiconductor
ML9052
Line address circuit line address circuit used specifying line address corresponding output when displaying contents display data shown Fig. Normally, topmost line display (COM0 output normal display state common output, COM95 output reverse display stage) specified using display start line address command. display area lines direction increasing line address from specified display start line address. possible carry screen scrolling page changing dynamically changing line address using display start line address command. Display data latch circuit display data latch circuit latch temporarily storing data from display data before being output drive circuits. Since commands selecting normal/ reverse display turning display ON/OFF control data this latch, data display data will changed. Oscillator circuit This oscillator that generates display clock. oscillator circuit effective only when also "H". oscillations will stopped when "L", display clock input pin.
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Semiconductor
ML9052
Page Address Data
Line Address
When common output state normal display
Output
COM0 COM1 COM2 COM3 COM4 COM5 COM6 COM7 COM8 COM9 COM10 COM11 COM12 COM13 COM14 COM15 COM16 COM17 COM18 COM19 COM20 COM21 COM22 COM23 COM24 COM25 COM26 COM27 COM28 COM29 COM30 COM31 COM32 COM33 COM34 COM35 COM36 COM37 COM38 COM39 COM40 COM41 COM42 COM43 COM44 COM45 COM46 COM47 COM48 COM49 COM50 COM51 COM52 COM53 COM54 COM55 COM89 COM90 COM91 COM92 COM93 COM94 COM95 COMS
Page0
Page1
Page2
Page3
Page4
Page5
Page6
Page11
Page12
(Start)
Column Address
95Lines
SEG127 SEG128 SEG129 SEG130 SEG131
97th line accessed irrespective display start line address.
SEG0 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7
Figure 14/64
Semiconductor Display timing generator circuit
ML9052
This circuit generates timing signals line address circuit display data latch circuit from display clock. display data latched display data latch circuit output segment drive output pins synchronization with display clock. This circuit generates timing signals line address circuit display data latch circuit from display clock. display data latched display data latch circuit output segment drive output pins synchronization with display clock. read display data drive circuits completely independent display data access from MPU. result, there influence such flickering display even when display data accessed asynchronously during display. Also, internal common timing frame reversal (FR) signals generated this circuit from display clock. drive waveforms frame inversion drive method shown Fig. 5(a) drive circuits generated this circuit. Further, drive waveforms line inversion method shown Fig. 5(b) also generated depending issued command. line inversion drive method, possible carry reverse display drive every line maximum lines. Fig. 5(b) shows waveforms line inversion drive method.
COM0 COM1 DATA SEGn
Figure 5(a) Waveforms frame inversion drive method
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Semiconductor
ML9052
COM0 COM1 DATA SEGn
Figure 5(b) Waveforms line inversion drive method When ML9052 used multiple chip configuration, necessary supply slave side display timing signals (FR, DOF) from master side. statuses signals shown Table Table
Operating mode Master Mode (M/S "H") Internal oscillator circuit enabled (CLS Internal oscillator circuit disabled (CLS Slave Mode (M/S "L") Internal oscillator circuit enabled (CLS Internal oscillator circuit disabled (CLS Output Output Input Input Output Input Input Input Output Output Input Input
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Semiconductor Common output state selection circuit (see Table
ML9052
Since output scanning directions using common output state selection command ML9052, possible reduce placement restrictions time assembling modules. Table
State Normal Display Reverse Display Scanning direction COM0 COM95 COM95 COM0
Drive circuits This incorporates sets multiplexers that generate 4-level outputs driving LCD. These output drive voltage accordance with combination display data, scanning signals, signal. Fig. shows examples output waveforms frame inversion drive method.
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Semiconductor
ML9052
COM0 COM1 COM2 COM3 COM4 COM5 COM6 COM7 COM8 COM9 COM10 COM11 COM12 COM13 COM14 COM15
COM0
COM1
COM2
SEG0
SEG1
SEG2
COM0-SEG0
COM0-SEG1
Figure
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Semiconductor Power supply circuit
ML9052
This power consumption type power supply circuit generating voltages necessary driving devices, consists voltage multiplier circuits, voltage adjustment circuits, voltage follower circuits. This circuit effective only when ML9052 serves master device. power supply circuit, possible control ON/OFF each circuits voltage multiplier, voltage adjustment circuits, voltage follower circuits using power control command. result, also possible parts functions both external power supply internal power supply. Table shows functions controlled 3-bit data power control command Table shows sample combination. Table Details functions controlled bits power control command
Control Function controlled Voltage multiplier circuit control Voltage adjustment circuit adjustment circuit) control Voltage follower circuit (V/F circuit) control
Table Sample combination reference
Circuit State used Only internal power supply used Only adjustment circuits used Only circuits used Only external power supply used Voltage
External voltage input
Voltage multiplier pins Used OPEN OPEN OPEN
multiplier Adjustment
VOUT,
voltage multiplier pins pins VC1+, VS1-, VC2+, VS2-, VC3+, VC4+, VC5+, VC6+. Although combinations other than above also used, they recommended because they represent realistic methods use.
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Semiconductor
ML9052
Voltage multiplier circuit Using voltage multiplier circuits incorporated ML9052, possible carry 7times voltage multiplication 6-times voltage multiplication voltage difference VINVSS. 7-Times multiplication voltage difference multiplied times positive side output VOUT capacitors connected between pairs VS1- VC1+, VS2- VC2+, VS1- VC3+, VS2- VC4+, VS1- VC5+, VS2- VC6+, VOUT VSS. 6-Times multiplication voltage difference multiplied times positive side output VOUT capacitors connected between pairs VS1- VC1+, VS2- VC2+, VS1- VC3+, VS2- VC4+, VS1- VC5+, VOUT VSS, shorting pins VC6+ VOUT.
VOUT VC6+ VC4+ VC2+ VS2- VC5+ VC3+ VC1+ VS1- 7-Times voltage multiplier circuit VOUT VC6+ VC4+ VC2+ VS2- VC5+ VC3+ VC1+ VS1- 6-Times voltage meltiplier circuit
Figure voltage relationships voltage multiplication shown Fig.
VOUT 17.5 VOUT
Voltage relationship 7-times multiplication
Voltage relationship 6-times multiplication
Figure voltage range should that voltage VOUT does exceed absolute maximum rating. 20/64
Semiconductor
ML9052
Voltage adjustment circuit voltage multiplier output VOUT produces drive voltage voltage adjustment circuit. Since ML9052 incorporates high accuracy constant voltage generator, 64-level electronic potentiometer function, also resistors voltage adjustment, possible build high accuracy voltage adjustment circuit with very components. addition, ML9052 available three models with temperature gradients about -0.11%/°C, about -0.3%/°C, external input (input VRS), VREG option. When internal resistors voltage adjustment used possible control power supply voltage adjust intensity display using commands without needing external resistors, internal voltage adjustment resistors electronic potentiometer function used. voltage obtained following equation range V1<VOUT. (1+(Rb/Ra)) (1+(Rb/Ra)) (1-(a/162)) VREG (Eqn. A-1)
Internal
Internal
(Constant voltage generator electronic potentiometer)
Figure VREG constant voltage generated inside value constant given Table 25°C. Table
Model Internal Power Supply Internal Power Supply External Input Temperature gradient -0.11 -0.3 Unit [%/°C] [%/°C] VREG Unit
Here, electronic potentiometer function which allows level among levels selected merely setting data 6-bit electronic potentiometer register. values electronic potentiometer register shown Table
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Semiconductor Table
ML9052
Rb/Ra voltage adjustment internal resistor ratio adjusted levels voltage adjustment internal resistor ratio command. reference values ratio (1+Rb/Ra) according 3-bit data voltage adjustment internal resistor ratio setting register listed Table Table Voltage adjustment internal resistor ratio setting register values ratio (1+Rb/Ra) (For reference)
Register value Temperature gradient model [unit: %/°C] -0.11 -0.3 VREG
VREG external input.
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Semiconductor
ML9052
When external resistors used (voltage adjustment internal resistors used) Case also possible drive power supply voltage without using internal resistors voltage adjustment connecting external resistors (Ra' Rb') between between Even this case, possible control power supply voltage adjust intensity display using commands electronic potentiometer function used. voltage obtained following equation range V1<VOUT setting external resistors appropriately. (1+(Rb'/Ra')) (1+(Rb'/Ra')) (1-(a/162)) VREG (Eqn. B-1)
External External
(Constant voltage generator electronic potentiometer)
Figure Setting example: Setting 25°C using ML9052 model with temperature gradient -0.11%/°C. When electronic potentiometer register value middle value (D5, value will that VREG will hence equation becomes follows: (1+(Rb'/Ra')) (1-(a/162)) VREG (1+(Rb'/Ra')) (1-(31/162)) (Eqn. B-2) Further, current flowing through value Ra'+Rb' will Ra'+Rb' (Eqn. B-3) hence, Rb'/Ra' 1.89, this case, variability range voltage using electronic potentiometer function increment size will given Table Table
Variability range Increment size Min. (level Typ. (center value) Max. (level Unit [mV]
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Semiconductor
ML9052
When external resistors used (voltage adjustment internal resistors used) Case possible drive power supply voltage using fine adjustment adding variable resistor case using external resistors above case. Even this case, possible control power supply voltage adjust intensity display using commands electronic potentiometer function used. voltage obtained following equation range V1<VOUT setting external resistors (variable resistor), appropriately making fine adjustment (DR2). (1+(R3+R2-DR2)/(R1+DR2)) (1+(R3+R2-DR2)/(R1+DR2)) (1-(a/162)) VREG (Eqn. C-1)
External External External (Constant voltage generator electronic potentiometer)
Figure Setting example: Setting range using 25°C using ML9052 model with temperature gradient -0.11%/°C. When electronic potentiometer register value middle value (D5, value will that VREG will hence order make when equation becomes follows: (1+(R3+R2)/R1) (1-(31/162)) (3.0) (Eqn. C-2) order make when (1+R3/(R1+R2)) (1-(31/162)) (3.0) (Eqn. C-3) Further, current flowing between value R1+R2+R3 becomesR1+R2+R3 (Eqn. C-4) hence, this case, variability range voltage using electronic potentiometer function increment size will given Table Table
Variability range Increment size Min. (level Typ. (center value) Max. (level Unit [mV]
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Semiconductor
ML9052
When using voltage adjustment internal resistors electronic potentiometer function, necessary least voltage adjustment circuit voltage follower circuits both operating state using power control setting command. Also, when voltage multiplier circuit OFF, necessary supply voltage externally VOUT pin. effective only when voltage adjustment internal resistors used (pin "L"). Leave this open when voltage adjustment internal resistors being used (pin "H"). Since input impedance high, necessary take noise countermeasures such using short wire shielded wire Drive voltage generator circuits voltage divided using resistors inside generate voltages that necessary driving LCD. addition, these voltages impedance transformed using voltage follower circuits drive circuits. bias ratios 1/11 selected ML9052 using bias setting command. High power mode power supply circuit incorporated ML9052 extremely power consumption. [Normal mode: "H"]. Hence, case device panel with large load, display quality become poorer. such case, setting (high power mode) improve quality display. recommended verify display using actual unit order decide whether this mode. Further, degree display quality improvement still sufficient even after setting high power mode, necessary supply drive power supply from external source. Command sequence shutting internal power supply When shutting internal power supply, recommended procedure given Fig. switching power after putting power save mode using following command sequence.
Procedure Step1 Step2 Description (Command, status) Display Display Internal power supply Command address Power save commands (multiple)
Figure
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Semiconductor APPLICATION CIRCUITS
When voltage multiplier circuit, voltage adjustment circuit, circuits used When using voltage adjustement internal resistors 7-Times voltage multiplication
ML9052
When voltage multiplier circuit, voltage adjustment circuit, circuits used When using voltage adjustement internal resistors 7-Times voltage multiplication
VC6+ VC4+ VC2+ VS2- VC5+ VC3+ VC1+ VS1- VOUT
VC6+ VC4+ VC2+ VS2- VC5+ VC3+ VC1+ VS1- VOUT
0.47
0.47
When only voltage adjustment circuit circuits used When using voltage adjustment internal resistors
When only circuits used When using voltage adjustment internal resistors
VC6+ VC4+ VC2+ VS2- VC5+ VC3+ VC1+ VS1- VOUT VC6+ VC4+ VC2+ VS2- VC5+ VC3+ VC1+ VS1- VOUT
External power supply
External power supply
0.47
0.47
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Semiconductor
ML9052
When using internal power supply
VC6+ VC4+ VC2+ VS2- VC5+ VC3+ VC1+ VS1- VOUT
External power supply
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Semiconductor
ML9052
Reset circuit This goes into initialized condition when input goes level. initialized condition consists following conditions. Display Normal display mode Select: Incremented (ADC command "L") Power control register: (D2, registers data serial interface cleared. Power supply bias ratio: ML9052 1/11 bias Read-modify-write: Static indicator: Static indicator register: (D1, Line display start line. (10) column address address (11) page address (12) Common output state: Normal (13) Voltage adjustment internal resistor ratio register: (D2, (14) electronic potentiometer register mode released. Electronic potentiometer register: (D5, (15) drive method frame inversion method. Line inversion count register: (D4, other hand, when reset command used, only conditions (15) above set. shown "MPU Interface (example reference)", connected Reset initialization this made simultaneously with resetting MPU. This always reset using time power switched Also, excessive current flow through this when control signal from Hi-Z state. necessary take measures ensure that input terminals this into Hi-Z state after power been switched When built-in drive power supply circuit ML9052 used, necessary that when external drive power supply goes During period when "L", although oscillator circuit operating, display timing generator would have stopped pins FRS, would have been tied level. There effect pins
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Semiconductor
ML9052
COMMANDS
Interface
80-Series 68-Series Read mode Write mode
case 80-series interface, command started inputting pulse pin. case 68-series interface, command started inputting high pulse pin. Description commands Display ON/OFF (Write) This command controlling turning panel. display turned when written turned when written this bit.
Display Display
Display start line (Write) This command specifies display starting line address display data RAM. Normally, topmost line display specified using display start line command. possible scroll display screen dynamically changing address using display start line command. line address writing upper bits lower bits.
Upper bits Lower bits
Invalid bits
Line address
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Semiconductor
ML9052
Page address (Write) This command specifies page address which corresponds lower address when accessing display data from side. possible access required display data specifying page address column address.
Page address
Column address (Write) This command specifies column address display data RAM. column address specified successively writing upper bits lower bits. Since column address automatically incremented every time display data accessed, read write display data continuously. incrementing column address stopped address 83H.
Upper bits Lower bits Column address
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Semiconductor Status read (Read)
BUSY BUSY
ML9052
ON/OFF RESET
When BUSY '1', indicates that internal operations being made being reset. Although command accepted until BUSY becomes '0', there need check this cycle time satisfied.
This indicates relationship between column address segment driver. SEG0 SEG131; column address SEG131 SEG0; column address (Opposite polarity command.)
ON/OFF
This indicates ON/OFF state display. (Opposite polarity display ON/OFF command.) Display Display
RESET
This indicates that being reset signal reset command. Operating state Being reset
Display data write (Write) This command writes 8-bit data specified address display data RAM. Since column address automatically incremented after writing data, write successive display data display data RAM.
Write data
Display data read (Read) This command read 8-bit data from specified address display data RAM. Since column address automatically incremented after reading data, read successive display data from display data RAM. Further, dummy read operation necessary immediately after setting column data. display data cannot read when serial interface being used.
Read data
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Semiconductor
ML9052
Select (segment driver direction select) (Write) Using this command possible reverse relationship correspondence between column address display data segment driver output. possible reverse sequence segment driver output command.
Forward Reverse
Normal/reverse display mode (Write) possible toggle display condition without changing contents display data RAM. this case, contents display data will retained.
Forward Reverse Data Voltage when Voltage when
Display all-on ON/OFF (Write) Using this command, possible forcibly turn dots display irrespective contents display data RAM. this case, contents display data will retained. This command given priority over Normal/reverse display mode command.
Normal display state All-on display
power save mode will entered into when Display all-on command executed display condition. Bias (Write) This command used selecting bias ratio voltage necessary driving device panel.
ML9052 1/11 Bias Bias
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Semiconductor
ML9052
Read-modify-write (Write) This command used combination with command. When this command issued once, column address changed when Display data read command issued, incremented only when Display data write command issued. This condition maintained until command issued. When command issued, column address restored address that effective time Read-modify-write command issued last. Using this function, possible reduce overhead when repeatedly changing data special display area such blinking cursor.
(Write) This command releases read-modify-write mode restores column address value beginning mode.
Restored Column address
Read-modify-write mode
Reset (Write) This command initializes display start line number, column address, page address, common output state, voltage adjustment internal resistor ratio, electronic potentiometer function, static indicator function, also releases read-modify-write mode test mode. This command does affect contents display data RAM. reset operation made after issuing reset command. initialization after switching power carried reset signal input pin.
Common output state select (Write) This command used selecting scanning direction output pins.
ML9052 Forward Reverse COM0 COM95 COM95 COM0
Invalid bits
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Semiconductor Power control (Write) This command sets functions power supply circuits.
ML9052 Voltage multiplier circuit: Voltage multiplier circuit: Voltage adjustment circuit: Voltage adjustment circuit: Voltage follower circuits: Voltage follower circuits:
ML9052
Voltage adjustment internal resistor ratio This command sets ratios internal resistors adjusting voltage
Resistor ratio Small Large
Electronic potentiometer (2-Byte command) This command used controlling drive voltage output voltage adjustment circuit internal power supply adjusting intensity display. This two-byte command consisting Electronic potentiometer mode command Electronic potentiometer register command, both which should always issued successively pair. Electronic potentiometer mode (Write) When this command issued, electronic potentiometer register command becomes effective. Once electronic potentiometer mode set, possible issue command other than Electronic potentiometer register command. This condition released after data been register using Electronic potentiometer register command.
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Semiconductor
ML9052
Electronic potentiometer register (Write) setting 6-bit data electronic potentiometer register using this command, possible drive voltage voltage levels. electronic potentiometer mode released after some data been electronic potentiometer register using this command.
Small Large
Invalid
data when using electronic potentiometer function. Sequence setting electronic potentiometer register:
Electronic potentiometer mode Electronic potentiometer register electronic potentiometer mode released modification?
Static indicator (2-Byte command) This command used controlling static drive type indicator display. Static indicator display controlled only this command independent other display control commands. electrodes driving static indicator connected other connected FRS. recommended place wiring pattern electrodes static indicators from those electrodes dynamic drive. these interconnection patterns close each other, they cause deterioration device electrodes. Since Static indicator command two-byte command used combination with static indictor register command, these commands should always used together. (The Static indicator command single byte command.)
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Semiconductor
ML9052
Static indicator ON/OFF (Write) When Static indicator command issued, Static indicator register command becomes effective. Once Static indicator command issued, possible issue command other than Static indicator register command. This condition released only after some data written into register using static indicator register command.
Static indicator
Static indicator register (Write) This command used data 2-bit static indicator register thereby setting blinking state static indicator.
Indicator (Blinking about intervals) (Blinking about intervals) (Continuously
Invalid bits Sequence setting static indicator register:
Static indicator Static indicator register static indicator mode released modification?
Line inversion drive (2-byte command) frame inversion drive selection possible select driving method between line inversion drive method frame inversion drive methods. When line inversion method selected, command should used two-byte command combination with line inversion number command hence these commands should always issued successively.
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Semiconductor
ML9052
Drive method (Write) This command sets driving method. Once line inversion method been set, command other than Line inversion number command accepted. This state released only after some data register using Line inversion number command. frame inversion command single byte command.
Frame inversion Line inversion
Invalid bits Line inversion number (Write) When line inversion method been using drive method command, necessary immediately number inverted lines.
Number inverted lines
Invalid bits Power save (Compound command) goes into power save state when Display all-on command issued when display state, possible greatly reduce current consumption this state. power save state types, namely, sleep state standby state, goes into standby state when static indicator been made display data operating mode just before entering power save mode retained both sleep state standby state, also access display data these states. power save mode released issuing Display all-on command.
Static indicator Static indicator
Power save command issue (compound command) Sleep state Power save command (compound command) Display all-on command Static indicator command (2-byte command) Sleep state released Standby state released Standby state Power save command (Display all-on command)
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Semiconductor
ML9052
Sleep state this state, operations display system stopped possible reduce current consumption level near idle state current consumption unless there accesses from MPU. internal conditions sleep state follows: oscillator circuit power supply stopped. drive circuits stopped segment common driver outputs will level. Standby state operations dynamic display section stopped, only static display circuits indicators operate hence current consumption will minimum necessary static drive. internal conditions standby state follows: power supply circuit drive stopped. oscillator circuit will operating. drive circuits dynamic display stopped segment common driver outputs will level. static display section will operating. When reset command issued standby state, goes into sleep state. (Write) This Operation command.
Test (Write) This command testing chip. this command. When test command issued mistake, this state released issuing command. This command will ineffective TEST0 open level.
Invalid bits
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Semiconductor
ML9052
LIST COMMANDS
Operation Display Display Display start line (upper bits) Display start line (lower bits) Page address Column address (upper bits) Column address (lower bits) Status read Display data write Display data read Select Forward Reverse (upper) 010*Address (lower) 1011Address 0001Address (upper) 0000Address (lower) Status0000 Write data Read data 10100000 76543210 10101110 011**Address when when Upper bits display starting line address display set. Lower bits display starting line address display set. page address display set. upper bits column address display set. lower bits column address display set. status information read from upper bits. Writes data display data RAM. Reads data from display data RAM. Correspondence between display data address output. Forward when reverse when Normal display Reverse display Normal display All-on display Bias 10100110 10100100 10100010 Read-modify-write Reset Common output state select 11100000 11101110 11100010 11000*** 1*** Power control Voltage adjustment internal resistor ratio 00101 Operating state 00100 Resistor ratio setting Normal reverse mode. Normal mode when reverse when Normal display when all-on display when Sets drive voltage bias ratio. ML9052: 1/11 when when Incrementing column address During write: during read: Releases read-modify-write state. Internal reset Selects output scanning direction. Forward when reverse when Selects operating state internal power supply. Selects internal resistor ratio. Comment
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Semiconductor
ML9052
Operation
76543210 10000001 **Electronic potentiometer value 10101100 ******State 11010*** 1*** ***Line number
Comment Sets output voltage electronic potentiometer register.
Electronic potentiometer mode External potentiometer register Static indicator ON/OFF Static indicator register Drive method Line inversion number Power save Test
when when Sets blinking state. Frame inversion when Line inversion when Sets number lines inverted. Compound command Display Display all-on.
11100011 1111****
Operation" command. command factory testing chip.
Invalid bits
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Semiconductor
ML9052
DESCRIPTION COMMANDS
Examples settings instructions (reference examples) Initial setting
VDD-VSS Power supply Power supply stabilization RESET Input Wait more than 20ms Initial settings state (default)
Function stabilization using command input (user settings) Bias Select Common output state select
Line inversion frame inversion drive method select Function stabilization using command input (user settings) Setting voltage adjustment internal resistor ratio Electronic potentiometer
Function stabilization using command input (user settings) Power control Initial setting state complete
Notes: Sections referred Stabilization time internal oscillator Function description "Reset circuit" Command description "LCD Bias set" Command description "ADC Select" Command description "Common output state select" Command description "Line inversion/frame inversion drive select" Function description "Power supply circuit", Command description "Voltage adjustment internal resistor ratio set" Function description "Power supply circuit", Command description "Electronic potentiometer" Function description "Power supply circuit", Command description "Power control set"
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Semiconductor Examples settings instructions (reference examples)
ML9052
Initial setting Note: After power switched this outputs drive output pins voltages (SEG pins) (COM pins) which voltages that select display. charge remaining smoothing capacitors connected between VOUT pins drive voltage outputs V5), there some abnormality display such temporary blacking display screen when power switched following procedure recommended avoiding such abnormalities time power switched When using internal power supply immediately after power-on
VDD-VSS Power supply when Power supply stabilization Release reset state (RES "H") Initial settings state (default)
Function stabilization using command input (user settings) Bias Select Common output state select *(a)
Line inversion frame inversion drive method select Function stabilization using command input (user settings) Setting voltage adjustment internal resistor ratio Electronic potentiometer
Function stabilization using command input (user settings) Power control Initial setting state complete
*(a):
Carry power control within after releasing reset state. duration changes depending panel characteristics value smoothing capacitor. recommend verification operation using actual unit.
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Semiconductor
ML9052
Notes: Sections referred Function description "Reset circuit" Command description "LCD Bias set" Command description "ADC Select" Command description "Common output state select" Command description "Line inversion /frame inversion drive select" Function description "Power supply circuit", Command description "Voltage adjustment internal resistor ratio set" Function description "Power supply circuit", Command description "Electronic potentiometer" Function description "Power supply circuit", Command description "Power control set"
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Semiconductor When using internal power supply immediately after power-on
ML9052
VDD-VSS Power supply when Power supply stabilization Release reset state (RES "H") Initial settings state (default) Start power save mode (compound command) *(a)
Function stabilization using command input (user settings) Bias Select Common output state select
Line inversion frame inversion drive method select Function stabilization using command input (user settings) Setting voltage adjustment internal resistor ratio Electronic potentiometer Power save *(b)
Function stabilization using command input (user settings) Power control Initial setting state complete
*(a): Enter power save state within after releasing reset state. *(b): Carry power control within after releasing power save state. duration *(a) *(b) changes depending panel characteristics value smoothing capacitor. recommend verification operation using actual unit.
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Semiconductor
ML9052
Notes: Sections referred Function description "Reset circuit" Command description "LCD Bias set" Command description "ADC Select" Command description "Common output state select" Command description "Line inversion /frame inversion drive select" Function description "Power supply circuit", Command description "Voltage adjustment internal resistor ratio set" Function description "Power supply circuit", Command description "Electronic potentiometer" Function description "Power supply circuit", Command description "Power control set" power save state either sleep state standby state. Command description "Power save (compound command)"
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Semiconductor Data display
ML9052
initial settings Function stabilization using command input (user settings) Display start line Page address Column address
Function stabilization using command input (user settings) Display data write
Function stabilization using command input (user settings) Display ON/OFF data display
Notes: Sections referred *10: Command description "Display start line set" *11: Command description "Page address set" *12: Command description "Column address set" *13: Command description "Display data write" *14: Command description "Display ON/OFF" Power supply (*15)
state Function stabilization using command input (user settings) Power save VDD-VSS Power supply
Notes: Sections referred *15: power supply this switched after switching internal power supply. Function description "Power supply circuit" power supply this switched when internal power supply still since state supplying power built-in drive circuits continues short duration, affect display quality panel. Always follow power supply switching sequence. *16: Command description "Power save" *17: enter Reset when switching power supply OFF.
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Semiconductor Refresh refresh sequence regular intervals.
ML9052
Refresh sequence state which commands have been set. Test mode release command (F0h) Refresh DDRAM
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Semiconductor
ML9052
ABSOLUTE MAXIMUM RATINGS
Parameter Power Supply Voltage Bias Voltage Voltage Multiplier Reference Voltage Input Voltage Storage Temperature Range Symbol Tstg Condition 25°C 25°C 6-Times multiplication 7-Times multiplication 25°C Chip Rated value -0.3 -0.3 -0.3 +3.3 -0.3 +2.8 -0.3 VDD+0.3 +100 +125 Unit Applicable pins VDD, VOUT, VIN, inputs
Ambient temperature
RECOMMENDED OPERATING CONDITIONS
Parameter Power Supply Voltage Bias Voltage Voltage Multiplier Reference Voltage Voltage Multiplier Output Voltage Reference Voltage Operating Temperature Range Symbol VOUT VREG0 VREG1 -0.11%/°C -0.3%/°C Condition 6-Times multiplication 7-Times multiplication Rated value Unit Applicable pins VDD, VOUT, VIN, VOUT
25°C
VOUT
System (MPU) side ML9052
Note Note Note
voltages VDD, VOUT values taking reference. highest bias potential lowest VSS. Always maintain relationship among these voltages.
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Semiconductor
ML9052
ELECTRICAL CHARACTERISTICS
Characteristics
+85°C] Parameter Input Voltage Input Voltage Output Voltage Output Voltage Input Current Input Current Driver Resistance Current Consumption Input Capacitance
Oscillator Frequency
Symbol IDDS fOSC
Condition
Min.
Typ.
Max. +1.0 +3.0
Unit
Applicable pins SEG1 COM1
-0.5mA 0.5mA Standby 25°C, 1MHz
-1.0 -3.0
Internal Oscillations External Input
CL*5
25°C
(SCL), (SI), (E), (R/W), CS1, CS2, CLS, M/S, C86, DOF, RES, IRS, Pins FRS, DOF, Pins DOF, RES, IRS, Pins (E), (R/W), CS1, CS2, CLS, M/S, C86, P/S, RES, IRS, Pins Applicable pins (SCL), (SI), high impedance state. Table relationship between oscillator frequency frame frequency.
Table Relationship among oscillator frequency (fOSC), display clock frequency (fCL), frame frequency (fFR)
Parameter When internal oscillator circuit used When internal oscillator circuit used Display clock frequency (fCL) Frame frequency (fFR) fOSC/4 fCL/4 fOSC/(4 fCL/(4
Operating current consumption value 25°C) During display operation, internal power supply (The current consumption entire when external power supply used) Display mode: All-white
Symbol Condition V1-VSS V1-VSS Rated value Min. Typ. (80) (75) Max. Unit Remarks
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Semiconductor Display mode: Checker pattern
Symbol Condition V1-VSS V1-VSS Rated value Min. Typ. Max. Unit
ML9052
Remarks
During display operation, internal power supply Display mode: All-white
Symbol Condition 3-times voltage multiplication, V1-VSS 6-times voltage multiplication, V1-VSS Normal mode High power mode Normal mode High power mode Rated value Min. Typ. (90) (150) Max. Unit Remarks
Display mode: Checker pattern
Symbol Condition 3-times voltage multiplication, V1-VSS 6-times voltage multiplication, V1-VSS Normal mode High power mode Normal mode High power mode Rated value Min. Typ. Max. Unit Remarks
Power save mode current consumption, V±10%
Parameter Sleep State Standby State Symbol IDDS1 IDDS2 Condition Rated value Min. Typ. (0.1) Max. Unit Remarks
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Semiconductor Timing Characteristics System read/write characteristics (80-series MPU)
ML9052
tAW8 (CS2= "1") tCYC8 tCCLR,tCCLW tCCHR,tCCHW tDS8 (Write) tACC8 (Read) tOH8 tDH8 tAH8
[VDD +85°C] Parameter Address Hold Time Address Setup Time System Cycle Time Control Pulse Width (WR) Control Pulse Width (RD) Control Pulse Width (WR) Control Pulse Width (RD) Data Setup Time Data Hold Time Access Time Output Disable Time Applicable pins Symbol tAH8 tAW8 tCYC8 tCCLW tCCLR tCCHW tCCHR tDS8 tDH8 tACC8 tOH8 100pF Condition Rated value Min. Max. Unit
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Semiconductor
ML9052
[VDD +85°C] Parameter Address Hold Time Address Setup Time System Cycle Time Control Pulse Width (WR) Control Pulse Width (RD) Control Pulse Width (WR) Control Pulse Width (RD) Data Setup Time Data Hold Time Access Time Output Disable Time Applicable pins Symbol tAH8 tAW8 tCYC8 tCCLW tCCLR tCCHW tCCHR tDS8 tDH8 tACC8 tOH8 100pF Condition Rated value Min. Max. Unit
[VDD +85°C] Parameter Address Hold Time Address Setup Time System Cycle Time Control Pulse Width (WR) Control Pulse Width (RD) Control Pulse Width (WR) Control Pulse Width (RD) Data Setup Time Data Hold Time Access Time Output Disable Time Applicable pins Symbol tAH8 tAW8 tCYC8 tCCLW tCCLR tCCHW tCCHR tDS8 tDH8 tACC8 tOH8 100pF Condition Rated value Min. 1000 Max. Unit
Note input signal rise fall times specified less. When using system cycle time fast speed, specified values (tr+tf) (tCYC8tCCLW-tCCHW) (tr+tf) (tCYC8-tCCLR-tCCHR). Note timings specified taking levels reference. Note values tCCLW tCCLR specified during overlapping period (CS2 "H") levels respectively.
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Semiconductor System read/write characteristics (68-series MPU)
ML9052
tAW6 (CS2 "1") tCYC6 tEWHR,tEWHW tEWLR,tEWLW tDS6 (Write) tACC6 (Read) tOH6 tDH6 tAH6
[VDD +85°C] Parameter Address Hold Time Address Setup Time System Cycle Time Data Setup Time Data Hold Time Access Time Output Disable Time Enable Pulse Width Enable Pulse Width Read Write Read Write Applicable pins Symbol tAH6 tAW6 tCYC6 tDS6 tDH6 tACC6 tOH6 tCCLW tCCLR tCCHW tCCHR 100pF Condition Rated value Min. Max. Unit
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Semiconductor
ML9052
[VDD +85°C] Parameter Address Hold Time Address Setup Time System Cycle Time Data Setup Time Data Hold Time Access Time Output Disable Time Enable Pulse Width Enable Pulse Width Read Write Read Write Applicable pins Symbol tAH6 tAW6 tCYC6 tDS6 tDH6 tACC6 tOH6 tCCLW tCCLR tCCHW tCCHR 100pF Condition Rated value Min. Max. Unit
[VDD +85°C] Parameter Address Hold Time Address Setup Time System Cycle Time Data Setup Time Data Hold Time Access Time Output Disable Time Enable Pulse Width Enable Pulse Width Read Write Read Write Applicable pins Symbol tAH6 tAW6 tCYC6 tDS6 tDH6 tACC6 tOH6 tCCLW tCCLR tCCHW tCCHR 100pF Condition Rated value Min. 1000 Max. Unit
Note input signal rise fall times specified less. When using system cycle time fast speed, specified values (tr+tf) (tCYC6tEWLW-tEWHW) (tr+tf) (tCYC6-tEWLR-tEWHR). Note timings specified taking levels reference. Note values tEWLW tEWLR specified during overlapping period (CS2 "H") level
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Semiconductor Serial interface
ML9052
tCSS (CS2 "1") tSAS
tCSH
tSAH
tSCYC tSLW tSHW
tSDS
tSDH
[VDD +85°C] Parameter Serial Clock Period Pulse Width Pulse Width Address Setup Time Address Hold Time Data Setup Time Data Hold Time CS-SCL Time Applicable pins Symbol tSCYC tSHW tSLW tSAS tSAH tSDS tSDH tCSS tCSH Condition Rated value Min. Max. Unit
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Semiconductor
ML9052
[VDD +85°C] Parameter Serial Clock Period Pulse Width Pulse Width Address Setup Time Address Hold Time Data Setup Time Data Hold Time CS-SCL Time Applicable pins Symbol tSCYC tSHW tSLW tSAS tSAH tSDS tSDH tCSS tCSH Condition Rated value Min. Max. Unit
[VDD +85°C] Parameter Serial Clock Period Pulse Width Pulse Width Address Setup Time Address Hold Time Data Setup Time Data Hold Time CS-SCL Time Applicable pins Symbol tSCYC tSHW tSLW tSAS tSAH tSDS tSDH tCSS tCSH Condition Rated value Min. Max. Unit
Note input signal rise fall times specified less. Note timings specified taking levels reference.
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Semiconductor Display control output timing
ML9052
CL(OUT) tDFR
[VDD +85°C] Parameter Delay Time Applicable pins Symbol tDFR Condition 50pF Rated value Min. Typ. Max. Unit
[VDD +85°C] Parameter Delay Time Applicable pins Symbol tDFR Condition 50pF Rated value Min. Typ. Max. Unit
[VDD +85°C] Parameter Delay Time Applicable pins Symbol tDFR Condition 50pF Rated value Min. Typ. Max. Unit
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Semiconductor Reset input timing
ML9052
Internal state
Being reset
Reset complete
[VDD +85°C] Parameter Reset Time Reset Pulse Width Applicable pins Symbol Condition Rated value Min. Typ. Max. Unit
[VDD +85°C] Parameter Reset Time Reset Pulse Width Applicable pins Symbol Condition Rated value Min. Typ. Max. Unit
[VDD +85°C] Parameter Reset Time Reset Pulse Width Applicable pins Symbol Condition Rated value Min. Typ. Max. Unit
Note timings specified taking levels reference.
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Semiconductor
ML9052
INTERFACE
ML9052 connected directly 80-series 68-series MPUs. Further, using serial interface, possible operate with minimum number signal lines. addition, possible expand display area using ML9052 multiple chip configuration. this case, possible select individual accessed using chip select signals.
80-Series IORQ Decoder RESET
68-Series Decoder RESET
Serial interface Decoder RESET
ML9052
ML9052
ML9052
tied either level.
Port1 Port2
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Semiconductor
ML9052
CONFIGURATION
Layout Chip Size 11.44 3.32mm
Coordinates
Symbol DUMMY DUMMY TEST0 (mm) -5535 -4785 -4673 -4561 -4449 -4337 -4225 -4113 -4001 -3889 -3777 -3665 -3553 -3441 -3329 -3217 -3105 -2993 -2881 -2769 (mm) -1452 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 Symbol VOUT VOUT VC2+ VC2+ (mm) -2657 -2545 -2433 -2321 -2209 -2097 -2017 -1937 -1857 -1777 -1697 -1617 -1537 -1457 -1377 -1297 -1197 -1072 -947 -822 (mm) -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515
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Semiconductor
ML9052
Symbol VC4+ VC4+ VC6+ VC6+ VS2- VS2- VS1- VS1- VC5+ VC5+ VC3+ VC3+ VC1+ VC1+ TEST1
(mm) -697 -572 -447 -322 -197 1053 1178 1303 1423 1553 1678 1803 1928 2053 2178 2303 2428 2553 2678 2803 2928 3053 3178 3303 3428 3553 3665 3777 3889 4001 4113
(mm) -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1515
Symbol DUMMY DUMMY COM47 COM46 COM45 COM44 COM43 COM42 COM41 COM40 COM39 COM38 COM37 COM36 COM35 COM34 COM33 COM32 COM31 COM30 COM29 COM28 COM27 COM26 COM25 COM24 COM23 COM22 COM21 COM20 COM19 COM18 COM17 COM16
(mm) 4225 4337 4449 4561 4673 4785 4897 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535 5535
(mm) -1515 -1515 -1515 -1515 -1515 -1515 -1515 -1452 -1387 -1322 -1257 -1192 -1127 -1062 -997 -932 -867 -802 -737 -672 -607 -542 -477 -412 -347 -282 -217 -152
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Semiconductor
ML9052
Symbol DUMMY DUMMY COM15 COM14 COM13 COM12 COM11 COM10 COM9 COM8 COM7 COM6 COM5 COM4 COM3 COM2 COM1 COM0 COMS1 DUMMY DUMMY SEG0 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17 SEG18
(mm) 5535 5562 5498 5432 5368 5302 5238 5172 5108 5042 4978 4912 4848 4782 4718 4652 4588 4522 4458 4388 4322 4258 4192 4128 4062 3998 3932 3868 3802 3738 3672 3608 3542 3478 3412 3348 3282 3218 3152 3088
(mm) 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509
Symbol SEG19 SEG20 SEG21 SEG22 SEG23 SEG24 SEG25 SEG26 SEG27 SEG28 SEG29 SEG30 SEG31 SEG32 SEG33 SEG34 SEG35 SEG36 SEG37 SEG38 SEG39 SEG40 SEG41 SEG42 SEG43 SEG44 SEG45 SEG46 SEG47 SEG48 SEG49 SEG50 SEG51 SEG52 SEG53 SEG54 SEG55 SEG56 SEG57 SEG58
(mm) 3022 2958 2892 2828 2762 2698 2632 2568 2502 2438 2372 2308 2242 2178 2112 2048 1982 1918 1852 1788 1722 1658 1592 1528 1462 1398 1332 1268 1202 1138 1072 1008
(mm) 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509
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Semiconductor
ML9052
Symbol SEG59 SEG60 SEG61 SEG62 SEG63 SEG64 SEG65 SEG66 SEG67 SEG68 SEG69 SEG70 SEG71 SEG72 SEG73 SEG74 SEG75 SEG76 SEG77 SEG78 SEG79 SEG80 SEG81 SEG82 SEG83 SEG84 SEG85 SEG86 SEG87 SEG88 SEG89 SEG90 SEG91 SEG92 SEG93 SEG94 SEG95 SEG96 SEG97 SEG98
(mm) -162 -228 -292 -358 -422 -488 -552 -618 -682 -748 -812 -878 -942 -1008 -1072 -1138 -1202 -1268 -1332 -1398 -1462 -1528 -1592 -1658 -1722 -1788 -1852 -1918 -1982 -2048 -2112
(mm) 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509
Symbol SEG99 SEG100 SEG101 SEG102 SEG103 SEG104 SEG105 SEG106 SEG107 SEG108 SEG109 SEG110 SEG111 SEG112 SEG113 SEG114 SEG115 SEG116 SEG117 SEG118 SEG119 SEG120 SEG121 SEG122 SEG123 SEG124 SEG125 SEG126 SEG127 SEG128 SEG129 SEG130 SEG131 DUMMY DUMMY COM48 COM49 COM50 COM51 COM52
(mm) -2178 -2242 -2308 -2372 -2438 -2502 -2568 -2632 -2698 -2762 -2828 -2892 -2958 -3022 -3088 -3152 -3218 -3282 -3348 -3412 -3478 -3542 -3608 -3672 -3738 -3802 -3868 -3932 -3998 -4062 -4128 -4192 -4258 -4322 -4338 -4458 -4522 -4588 -4652 -4718
(mm) 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509
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Semiconductor
ML9052
Symbol COM53 COM54 COM55 COM56 COM57 COM58 COM59 COM60 COM61 COM62 COM63 COM64 DUMMY DUMMY COM65 COM66 COM67 COM68 COM69 COM70 COM71 COM72 COM73
(mm) -4782 -4848 -4912 -4978 -5042 -5108 -5172 -5238 -5302 -5368 -5432 -5498 -5562 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535
(mm) 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509 1509
Symbol COM74 COM75 COM76 COM77 COM78 COM79 COM80 COM81 COM82 COM83 COM84 COM85 COM86 COM87 COM88 COM89 COM90 COM91 COM92 COM93 COM94 COM95 COMS0
(mm) -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535 -5535
(mm) -152 -217 -282 -347 -412 -477 -542 -607 -672 -737 -802 -867 -932 -997 -1062 -1127 -1192 -1257 -1322 -1387
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E2Y0002-29-62
NOTICE
information contained herein change without notice owing product and/or technical improvements. Before using product, please make sure that information being referred up-to-date. outline action examples application circuits described herein have been chosen explanation standard action performance product. When planning product, please ensure that external conditions reflected actual circuit, assembly, program designs. When designing your product, please product below specified maximum ratings within specified operating ranges including, limited operating voltage, power dissipation, operating temperature. assumes responsibility liability whatsoever failure unusual unexpected operation resulting from misuse, neglect, improper installation, repair, alteration accident, improper handling, unusual physical electrical stress including, limited exposure parameters beyond specified maximum ratings operation outside specified operating range. Neither indemnity against license third party's industrial intellectual property right, etc. granted connection with product and/or information drawings contained herein. responsibility assumed infringement third party's right which result from thereof. products listed this document intended general electronics equipment commercial applications (e.g., office automation, communication equipment, measurement equipment, consumer electronics, etc.). These products authorized system application that requires special enhanced quality reliability characteristics system application where failure such system application result loss damage property, death injury humans. Such applications include, limited traffic automotive equipment, safety devices, aerospace equipment, nuclear power control, medical equipment, life-support systems. Certain products this document need government approval before they exported particular countries. purchaser assumes responsibility determining legality export these products will take appropriate necessary steps their expense these. part contents contained herein reprinted reproduced without prior permission. MS-DOS registered trademark Microsoft Corporation.
Copyright 1999 Electric Industry Co., Ltd.
Printed Japan
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