GDM2004D

GDM2004D Features 1. 2. 3. 4. 5. 5x8 dots Built-in controller (S6A0069 or equivalent) +5V power supply 1/16 duty cycle LED Backlight SPECIFICATIONS OF LCD MODULE Outline dimension Unit: mm Absolute maximum ratings Item Power voltage Input voltage Operating temperature range Storage temperature range Environmental Humidity Expected Life Time Symbol VDD-VSS VIN Top Tst Standard 0 7.0 VSS VDD 0 +50 -10 +60 RH≤70% ≥50000 Unit V ℃ H Wide temperature range is available (operating/storage temperature as –20~+70/-30~+80 ) GDM2004D-FL-YBW Block diagram VDD VSS V0 RS R/W E D B0-DB7 R LED BKL COM LCD PANEL LCD CONTROLLER AND DRIVER SEG S EG LCD DRIVER LED+ LED- Interface pin description Pin no. 1 2 3 4 5 6 7~10 11~14 15 16 Symbol VSS VDD V0 RS R/W E DB0~DB3 DB4~DB7 LED+ LED- External connection Power supply MPU MPU MPU MPU MPU LED BKL power Supply Function Signal ground for LCM (GND) Power supply for logic (+5V) for LCM Contrast adjust Register select signal Read/write select signal Operation (data read/write) enable signal Four low order bi-directional three-state data bus lines. Used for data transfer between the MPU and the LCM. These four are not used during 4-bit operation. Four high order bi-directional three-state data bus lines. Used for data transfer between the MPU Power supply for BKL (Anode) Power supply for BKL (GND) Contrast adjust A）For Single Source For Module with Normal Temperature Range Fluid VDD~V0: LCD Driving voltage VR: 10k~20k VER 1.0 2/9 2003/12/09 GDM2004D-FL-YBW Optical characteristics STN type display module (Ta=25℃, VDD=5.0V) Item Viewing angle Contrast ratio Response time (rise) Response time (fall) Symbol θ Φ Cr Tr Tr Condition Cr≥2 - Min. -60 -40 - Typ. 15 150 150 Max. 35 40 250 250 Unit deg ms Electrical characteristics LED ratings Item Forward Voltage Forward current Power Peak wave length Luminance Operating temperature range Storage temperature range DC characteristics Parameter Supply voltage for LCD Input voltage Backlight supply voltage Supply current Backlight supply current Input leakage current “H” level input voltage “L” level input voltage “H” level output voltage “L” level output voltage Symbol VF IF P λp Lv VOP VST Min 3.8 Typ. 4.0 240 568 185 - Max 4.4 1.01 Unit V mA W nm Cd/m2 ℃ -20 -25 +70 +80 Symbol VDD-V0 VDD VF IDD IF ILKG VIH VIL VOH VOL Conditions Ta =25℃ Min. 4.7 150 2.2 0 2.4 - Typ. 4.6 4.1 1.5 - Max. 5.5 4.3 3 1.0 VDD 0.6 0.4 Unit V Ta=25℃, VDD=5.0V VDD=5.0V R=6.8 mA uA V Twice initial value or less LOH=-0.25mA LOH=1.6mA Read cycle (Ta=25℃, VDD=5.0V) Parameter Enable cycle time Enable pulse width Enable rise/fall time RS; R/W setup time RS; R/W address hold time Read data output delay Read data hold time Symbol tc tw tr, tf tsu th td tdh Test pin E RS; R/W RS; R/W DB0~DB7 Min. 500 300 100 10 60 20 Typ. - Max. 25 90 - Unit ns VER 1.0 3/9 2003/12/09 GDM2004D-FL-YBW Write cycle Parameter Enable cycle time Enable pulse width Enable rise/fall time RS; R/W setup time RS; R/W address hold time Read data output delay Read data hold time Symbol tc tw tr, tf tsu1 th1 tsu2 th2 Test pin E RS; R/W RS; R/W DB0~DB7 Min. 500 300 100 10 60 10 Typ. - Max. 25 - Unit ns Write mode timing diagram Read mode timing diagram VER 1.0 4/9 2003/12/09 GDM2004D-FL-YBW Instruction description Outline To overcome the speed difference between the internal clock of KS0066U and the MPU clock, KS0066U performs internal operations by storing control in formations to IR or DR. The internal operation is determined according to the signal from MPU, composed of read/write and data bus (Refer to Table7). Instructions can be divided largely into four groups: 1) KS0066U function set instructions (set display methods, set data length, etc.) 2) Address set instructions to internal RAM 3) Data transfer instructions with internal RAM 4) Others The address of the internal RAM is automatically increased or decreased by 1. Note: during internal operation, busy flag (DB7) is read “High”. Busy flag check must be preceded by the next instruction. When an MPU program with checking the busy flag (DB7) is made, it must be necessary 1/2 fuss for executing the next instruction by the falling edge of the “E” signal after the busy flag (DB7) goes to “LOW”. Contents 1) Clear display RS 0 R/W 0 DB7 0 DB6 0 DB5 0 DB4 0 DB3 0 DB2 0 DB1 0 DB0 1 Clear all the display data by writing “20H” (space code) to all DDRAM address, and set DDRAM address to “00H” into AC (address counter). Return cursor to the original status, namely, brings the cursor to the left edge on the fist line of the display. Make the entry mode increment (I/D=“High”). 2) Return home RS 0 R/W 0 DB7 0 DB6 0 DB5 0 DB4 0 DB3 0 DB2 0 DB1 1 DB0 - Return home is cursor return home instruction. Set DDRAM address to “00H” into the address counter. Return cursor to its original site and return display to its original status, if shifted. Contents of DDRAM does not change. 3) Entry mode set RS 0 R/W 0 DB7 0 DB6 0 DB5 0 DB4 0 DB3 0 DB2 0 DB1 I/D DB0 SH Set the moving direction of cursor and display. I/D: increment / decrement of DDRAM address (cursor or blink) When I/D=“high”, cursor/blink moves to right and DDRAM address is increased by 1. When I/D=“Low”, cursor/blink moves to left and DDRAM address is increased by 1. *CGRAM operates the same way as DDRAM, when reading from or writing to CGRAM. (I/D=“high”. shift left, I/D=“Low”. Shift right). 4) Display ON/OFF control R/W 0 DB7 0 DB6 0 DB5 0 5/9 DB4 0 DB3 1 DB2 D DB1 C DB0 B 2003/12/09 RS 0 VER 1.0 GDM2004D-FL-YBW Control display/cursor/blink ON/OFF 1 bit register. D: Display ON/OFF control bit When D=“High”, entire display is turned on. When D=“Low”, display is turned off, but display data remains in DDRAM. C: cursor ON/OFF control bit When D=“High”, cursor is turned on. When D=“Low”, cursor is disappeared in current display, but I/D register preserves its data. B: Cursor blink ON/OFF control bit When B=“High”, cursor blink is on, which performs alternately between all the “High” data and display characters at the cursor position. When B=“Low”, blink is off. 5) Cursor or display shift RS 0 R/W 0 DB7 0 DB6 0 DB5 0 DB4 1 DB3 S/C DB2 R/L DB1 DB0 - Shifting of right/left cursor position or display without writing or reading of display data. This instruction is used to correct or search display data. (Refer to Table 6) During 2-line mode display, cursor moves to the 2nd line after the 40th digit of the 1st line. When display data is shifted repeatedly, each line is shifted individually. When display shift is performed, the contents of the address counter are not changed. Shift patterns according to S/C and R/L bits S/C 0 0 1 1 6) R/L 0 1 0 1 Function set RS 0 R/W 0 DB7 0 DB6 0 DB5 1 DB4 DL DB3 N DB2 F DB1 DB0 Operation Shift cursor to the left, AC is decreased by 1 Shift cursor to the right, AC is increased by 1 Shift all the display to the left, cursor moves according to the display Shift all the display to the right, cursor moves according to the display DL: Interface data length control bit When DL=“High”, it mans 8-bit bus mode with MPU. When DL=“Low”, it mans 4-bit bus mode with MPU. Hence, DL is a signal to select 8-bit or 4-bit bus mode. When 4-but bus mode, it needs to transfer 4-bit data twice. N: Display line number control bit When N=“Low”, 1-line display mode is set. When N=“High”, 2-line display mode is set. F: Display line number control bit When F=“Low”, 5x8 dots format display mode is set. When F=“High”, 5x11 dots format display mode. 7) Set CGRAM address RS 0 R/W 0 DB7 0 DB6 1 DB5 AC5 DB4 AC4 DB3 AC3 DB2 AC2 DB1 AC1 DB0 AC0 Set CGRAM address to AC. The instruction makes CGRAM data available from MPU. VER 1.0 6/9 2003/12/09 GDM2004D-FL-YBW 8) Set DDRAM address RS 0 R/W 0 DB7 1 DB6 AC6 DB5 AC5 DB4 AC4 DB3 AC3 DB2 AC2 DB1 AC1 DB0 AC0 Set DDRAM address to AC. This instruction makes DDRAM data available form MPU. When 1-line display mode (N=LOW), DDRAM address is form “00H” to “4FH”. In 2-line display mode (N=High), DDRAM address in the 1st line form “00H” to “27H”, and DDRAM address In the 2nd line is from “40H” to “67H”. 9) Read busy flag & address RS R/W DB7 0 1 BF DB6 AC6 DB5 AC5 DB4 AC4 DB3 AC3 DB2 AC2 DB1 AC1 DB0 AC0 This instruction shows whether KS0066U is in internal operation or not. If the resultant BF is “High”, internal operation is in progress and should wait BF is to be LOW, which by then if the nest instruction can be performed. In this instruction you can also read the value of the address counter. 10) Write data to RAM RS 1 R/W 0 DB7 D7 DB6 D6 DB5 D5 DB4 D4 DB3 D3 DB2 D2 DB1 D1 DB0 D0 Write binary 8-bit data to DDRAM/CGRAM. The selection of RAM from DDRAM, and CGRAM, is set by the previous address set instruction (DDRAM address set, CGRAM address set). RAM set instruction can also determine the AC direction to RAM. After write operation. The address is automatically increased/decreased by 1, according to the entry mode. 11) Read data from RAM RS 1 R/W 1 DB7 D7 DB6 D6 DB5 D5 DB4 D4 DB3 D3 DB2 D2 DB1 D1 DB0 D0 Read binary 8-bit data from DDRAM/CGRAM. The selection of RAM is set by the previous address set instruction. If the address set instruction of RAM is not performed before this instruction, the data that has been read first is invalid, as the direction of AC is not yet determined. If RAM data is read several times without RAM address instructions set before, read operation, the correct RAM data can be obtained from the second. But the first data would be incorrect, as there is no time margin to transfer RAM data. In case of DDRAM read operation, cursor shift instruction plays the same role as DDRAM address set instruction, It also transfers RAM data to output data register. After read operation, address counter is automatically increased/decreased by 1 according to the entry mode. After CGRAM read operation, display shift may not be executed correctly. NOTE: In case of RAM write operation, AC is increased/decreased by 1 as in read operation. At this time, AC indicates next address position, but only the previous data can be read by the read instruction. VER 1.0 7/9 2003/12/09 GDM2004D-FL-YBW Instruction table Instruction code Instruction Clear Display Return Home 0 0 0 0 0 0 0 0 1 RS R/W DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 Description Write “20H” to DDRA and set DDRAM address to “00H” from AC Set DDRAM address to “00H” From AC and return cursor to Its original position if shifted. The contents of DDRAM are not changed. Assign cursor moving direction And blinking of entire display Set display (D), cursor (C), and Blinking of cursor (B) on/off Control bit. Set cursor moving and display Shift control bit, and the Direction, without changing of DDRAM data. Set interface data length (DL: 8Bit/4-bit), numbers of display Line (N: =2-line/1-line) and, Display font type (F: 5x11/5x8) Set CGRAM address in address Counter. Set DDRAM address in address Counter. Whether during internal Operation or not can be known By reading BF. The contents of Address counter can also be read. Write data into internal RAM (DDRAM/CGRAM). Read data from internal RAM (DDRAM/CGRAM). Execution Time (fosc= 270 KHZ 1.53ms 0 0 0 0 0 0 0 0 0 1 1.53ms Entry mode Set Display ON/ OFF control Cursor or Display shift Function set 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 D I/D C SH B 39us 0 0 0 0 0 1 S/C R/L - - 39us 0 0 0 0 1 DL N F - - 39us 39us 39us Set CGRAM Address Set DDRAM Address Read busy Flag and Address Write data to Address Read data From RAM 0 0 0 0 0 1 1 AC6 AC5 AC5 AC4 AC4 AC3 AC3 AC2 AC2 AC1 AC1 AC0 AC0 0 1 BF AC6 AC5 AC4 AC3 AC2 AC1 AC0 0us 1 1 0 1 D7 D7 D6 D6 D5 D5 D4 D4 D3 D3 D2 D2 D1 D1 D0 D0 43us 43us NOTE: When an MPU program with checking the busy flag (DB7) is made, it must be necessary 1/2fosc is necessary for executing the next instruction by the falling edge of the “E” signal after the busy flag (DB7) goes to “Low”. DDRAM address: Display position 1 00 40 14 54 2 01 41 15 55 3 02 42 16 56 4 03 43 17 57 5 04 44 18 58 6 7 8 05 06 07 45 46 47 19 1A 1B 59 5A 5B 9 10 11 08 09 0A 48 49 4A 1C 1D 1E 5C 5D 5E 12 0B 4B 1F 5F 13 14 15 16 17 0C 0D 0E 0F 10 4C 4D 4E 4F 50 20 21 22 23 24 60 61 62 63 64 18 11 51 25 65 19 12 52 26 66 20 13 53 27 67 DDRAM address VER 1.0 8/9 2003/12/09 GDM2004D-FL-YBW Standard character pattern VER 1.0 9/9 2003/12/09