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0.180'' 4-Character 5x7 Dot Matrix Serial Input Dot Addressable Intelligent Display(R) Devices Lead (Pb) Free Product / RoHS Compliant
SCE574x
SCE574xP-SIP
SCE574xQ-SIP with right angle bends
Standard Red SCE5740 Green SCE5743
DESCRIPTION
Yellow SCE5741 High Efficiency Green SCE5744
Super-red SCE5742 Orange SCE5745
The SCE574x is a four digit, dot addressable 5 x 7 dot matrix, serial input, alphanumeric Intelligent Display device. The four digits are packaged in a rugged, high quality, optically transparent, plastic 14 pin DIP with 2.54 mm (0.1") pin spacing. The SCE574xP is a SIP version of SCE574x. The SCE574xQ is also a SIP version of the SCE574x but the leads are at right angles to the package so that the part can be mounted vertically. The SIP version parts have only 7 pins. The SIP parts do not have the option of using an external clock. All the electrical descriptions for the SCE574x apply to the SIP versions except the allusions to the external clock. The on-Board CMOS has a 140 bit RAM, one bit associated with one LED, each to generate User Defined Characters. In Power Down Mode, quiescent current is < 50 A. The SCE574x is designed for work with the serial port of most common microprocessors. Data is transferred into the display through the Serial Data Input (DATA), clocked by the Serial Data Clock (SDCLK), and enabled by the Load Input (LOAD). The SCE574x Clock I/O (Clk I/O) and Clock Select (CLKSEL) pins offer the user the capability to supply a high speed external multiplex clock. This feature can minimize audio in-band interference for portable communication equipment or eliminate the visual synchronization effects found in high vibration environments such as avionic equipment. A divide by 16 prescalar is built into the part and can be accessed by software to reduce the multiplex frequency if a high speed external clock is used.
ALSO AVAILABLE WITH OPTIONS (see page 8) * SCE574xP-SIP * SCE574xQ-SIP with right angle bends FEATURES * Four 4.57 mm (0.180") 5 x 7 Dot Matrix Characters in Red, Yellow, Super-red, Green, High Efficiency Green, Orange * Optimum Display Surface Efficiency (display area to package ratio) * High Speed Data Input Rate: 5.0 MHz * ROMless Serial Input, Dot Addressable Display Ideal for User Defined Characters * Built-in Decoders, Multiplexers and LED Drivers * Wide Viewing Angle, X Axis 55, Y Axis 55 ATTRIBUTES - 140 Bit RAM for User Defined Characters - Eight Dimming Levels plus eight fine dimming levels. - Power Down Model (< 250 mW) - Hardware/Software Clear Functions - External Clock-SCE574x only
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SCE5740, SCE5741, SCE5742, SCE5743, SCE5744, SCE5745
Ordering Information Type SCE5740 SCE5741 SCE5742 SCE5743 SCE5744 SCE5745 Color of Emission standard red yellow super-red green high efficiency green orange 4.57 (0.180) Character Height mm (inch) Ordering Code Q68100A1369 Q68100A1370 Q68100A1371 Q68100A1372 Q68100A1373 Q68100A1374
Package Outlines
Dimensions in mm (inch)
10.16 (0.400) 0.38 (0.015)
19.91 (0.784)
IDOD5006
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4.57 (0.180)
SCE5740, SCE5741, SCE5742, SCE5743, SCE5744, SCE5745
Maximum Ratings
Parameter Operating temperature range Storage temperature range DC Supply Voltage Input Voltage Levels Relative to GND Solder Temperature 1.59 mm (0.063") below seating plane, t < 5.0 s Relative Humidity ESD (100 pF, 1.5 k) Input Current Maximum Number of LEDs on at 100% Brightness Maximum Power Dissipation VZ TS Symbol Top Tstg VCC Value - 40 ... + 85 - 40 ... + 100 -0.5 to + 7.0 -0.5 to VCC +0.5 260 85 2.0 130 64 0.6 W Unit C C V V C % kV mA
Optical Characteristics at 25C (VCC=5.0 V at 100% brightness level, viewing angle: X axis 55, Y axis 65)
Description Symbol Values High Efficiency Green SCE5744 Unit
Super-red SCE5742
Red SCE5740
Yellow SCE5741
Green SCE5743
Luminous Intensity Peak Wavelength Dominant Wavelength
(min.) IV (typ.) (typ.) peak (typ.) dom
30 60 655 639
60 150 583 585
60 150 630 620
60 150 565 573
80 180 568 574
60 150 605 610
Orange SCE5745 cd/dot cd/dot nm nm
Notes: 1. Dot to dot intensity matching at 100% brightness is 1.8:1. 2. Displays within a given intensity category have an intensity matching of 1.5:1 (max.).
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Electrical Characteristics (over operating temperature) Parameter VCC ICC (Power Down) 1) 2) ICC 4 digits 20 dots/character3) IIL Input current IIH Input current VIH VIL Row Multiplex Rate JC-pin Min. 4.5 -- 90 --
--
Typ. 5.0 -- 115 -- -- -- -- 768 --
Max. 5.5 50 130 -10 10 -- 1.5 1086 45
Units V A mA A A V V Hz C/W
Conditions -- VCC=5.0 V, all inputs=0 V or VCC VCC=5.0 V, "#" displayed in all 4 digits at 100% brightness at 25C VCC=5.0 V, VIN=0 (all inputs) VCC=VIN=5.0 V (all inputs) VCC=4.5 V to 5.5 V VCC=4.5 V to 5.5 V -- --
3.5 -- 375 --
Notes: 1) Unused inputs must be tied high. 2) External oscillator must be stopped. 3) Peak current 5/3 x ICC. Electrical Characteristics for SCE574x only Parameter IOH (CLK I/O) IOL (CLK I/O) Fext External Clock Input Frequency Fosc Internal Clock Input Frequency Clock I/O Bus Loading Clock Out Rise Time Clock Out Fall Time Min. -- -- 120 120 -- -- -- Typ. -28 23 -- -- -- -- -- Max. -- -- 3 347 240 500 500 Units mA mA MHz kHz pF ns ns Conditions VCC=4.5 V, VOH=2.4 V VCC=4.5 V, VOL=0.4 V VCC=5.0 V, CLKSEL=0 VCC=5.0 V, CLKSEL=1 -- VCC=4.5 V, VOH=2.4 V VCC=4.5 V, VOH=0.4 V
Input/Output Circuits Figures Inputs" and Clock I/O" show the input and output resistor/diode networks used for ESD protection and to eliminate substrate latch-up caused by input voltage over/under shoot. Inputs Clock I/O (SCE574X only)
VCC
VCC
input/output
Input
1 k
1 K
GND
IDCD5021
GND
4
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Switching Specifications (over operating temperature range and VCC=4.5 V to 5.5 V) Symbol TRC TLDS TDS TSDCLK TBL Description Reset Active Time Load Setup Time Data Setup Time Clock Period Time Between Loads Min. 600 50 50 200 600 Units ns ns ns ns ns Symbol TSDCW TLDH TDH TWR Description Clock Width Load Hold Time Data Hold Time Total Write Time Min. 70 0 25 2.2 Units ns ns ns s
Note: TSDCW is the minimum time the SDCLK may be low or high. The SDCLK period must be a minimum of 200 ns. Timing Diagram--Data Write Cycle
T LDS LOAD
T DS DATA
TLDH
D0 TDH
D7
SDCLK T SDCW T SDCLK
Timing Diagram--Instruction Cycle
TWR TBL LOAD
SDCLK
DATA
D0
D1
D2
D3 OR
D4
D5
D6
D7
D0
LOAD
SDCLK
DATA
D0
D1
D2
D3
D4
D5
D6
D7
D0
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Top View Pin Definitions
14
Pins
8
Pin 1 2
Function VCC LOAD
Definitions Power supply Low input enables data clocking into 8-bit serial shift register. When LOAD goes high, the contents of 8-bit serial Shift Register will be decoded. Serial data input no connection for loading data into the 8-bit serial data register Asynchronous input, when low clears the Multiplex Counter, Control Word Register, User RAM and Data Register. Control Word Register is set to 100% brightness. The display will be blank. Supply ground Outputs master clock or inputs external clock. No pins No pins No pins No pins No pins H=internal clock, L=external clock
Digit 0
Digit 1
Digit 2
Digit 3
3 4 5 6
DATA N/C SDCLK RST
1
Pin Assignment Pin 1 2 3 4 5 6 7 Function VCC LOAD DATA no connection SDCLK RST GND
Pins
7
IDPA5105
Pin 14 13 12 11 10 9 8
Function CLK SELECT no pin no pin no pin no pin no pin CLK I/O 7 8 9 10 11 12 13 GND CLK I/O N/P N/P N/P N/P N/P CLKSEL
Dot Matrix Format
4.45 (0.175)
1.09 (0.043) typ.
14
C1
C2
C3
C4
C5 R0 R1 R2 R3
Display Column and Row Format C0 Row 0 Row 1 1 0 0 0 0 0 0 C1 1 0 0 0 0 0 0 C2 1 1 1 1 1 1 1 C3 1 0 0 0 0 0 0 C4 1 0 0 0 0 0 0
6.86 (0.270)
Row 2 Row 3 Row 4 Row 5 Row 6
0.23 (0.009) typ.
R4 R5 R6 1.14 (0.045) typ.
1= Display dot ON" 0=Display dot OFF"
Column Data Ranges Row 0 Row 1 Row 2 00H to 1FH 00H to LFH 00H to LFH 00H to LFH Row 4 Row 5 Row 6 00H to LFH 00H to LFH 00H to LFH
Tolerance: 0.25 (0.010)
IDOD5013
Row 3 Dimensions in inches (mm)
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Block Diagram
RST CLK I/O CLKSEL OSC 64 Counter 7 Counter Row Control Logic and Row Drivers Rows 0 to 6
MUX Rate
8-bit Serial Register
DATA SDCLK LOAD
Y Address Decode
User RAM Memory 7 x 20 bits
Column Drivers Digit 0 to 4
Display Column 0 to 20 0 1 2 3
X Address Decode 3-bit Address Register 6-bit Control Word Register Control Word Logic
IDBD5063
Operation of the SCE574x The SCE574x display consists of a CMOS IC containing control logic and drivers for four 5 x 7 characters. These components are assembled in a compact plastic package. Individual LED dot addressability allows the user great freedom in creating special characters or mini-icons. The serial data interface provides a highly efficient interconnection between the display and the mother board. The SCE574x requires only three lines as compared to 14 lines for an equivalent four character parallel input part. The on-board CMOS IC is the electronic heart of the display. The IC accepts decoded serial data, which is stored in the internal RAM. Asynchronously the RAM is read by the character multiplexer at a strobe rate that results in a flicker free display. Figure Block Diagram" (page 7) shows the three functional areas of the IC. These include: the input serial data register and control logic, a 140 bits two port RAM, and an internal multiplexer/display driver.
The following explains how to format the serial data to be loaded into the display. The user supplies a string of bit mapped decoded characters. The contents of this string is shown in Figure Loading Serial Character Data a" (page 8). Figure Loading Serial Character Data b" (page 8) shows that each character consist of eight 8 bit words. The first word encodes the display character location and the succeeding five bytes are row data. The row data represents the status (On, Off) of individual column LEDs. Figure Loading Serial Character Data c" (page 8) shows that each 8 bit word is formatted to represent Column Data or Character Address. Figure Loading Serial Character Data d" (page 8) shows the sequence for loading the bytes of data. Bringing the LOAD line low enables the serial register to accept data. The shift action occurs on the low to high transition of the serial data clock (SDCLK). The least significant bit (D0) is loaded first. After eight clock pulses the LOAD line is brought high. With this transition the OPCODE is decoded. The decoded OPCODE directs D4-D0 to be latched in the Character Address register, stored in the RAM as Column data, or latched in the Control Word register. The control IC requires a minimum 600 ns delay between successive byte loads.
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Loading Serial Character Data
Example: Serial Clock=5.0 MHz, Clock Period=200 ns 352 Clock Cycles, 70.4 s a. Character 0 Character 1 Character 2 Character 3
88 Clock Cycles, 17.6 s b. Character 0 Address Row 0 Row 1 Row 2 Row 3 Row 4 Column Data Column Data Column Data Column Data Column Data Row 5 Column Data Row 6 Column Data
11 Clock Cycles, 2.2 s Time Character Address OPCODE D0 D1 D2 D3 D4 D5 D6 D7 Between Loads 0 0 0 00 1 0 1 600ns(min)
11 Clock Cycles, 2.2 s Time Column Data OPCODE D0 D1 D2 D3 D4 D5 D6 D7 Between Loads 0 0 600ns(min) DDDDD0
c.
LOAD Clock Period
Serial Clock DATA d.
D0 t0
D1
D2
D3
D4
D5
D6
D7
Time between Loads
Table Character 'D'" (page 8) shows the Row Address for the example character "D." Column data is written and read asynchronously from the 140 bit RAM. Once loaded the internal oscillator and character multiplexer reads the data from the RAM. These characters are row strobed with column data as shown in Figures Row and Columns Locations for a Character 'D'" (page 8) and Row Strobing" (page 9). The character strobe rate is determined by the internal or user supplied external MUX Clock, the IC's counter and the prescaler. Character "D" Op code D7 D6 D5 Row 0 Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Column Data D4 D3 D2 C0 C1 C2 1 1 1 1 1 1 1 1 0 0 0 0 0 1 1 0 0 0 0 0 1 Hex D1 C3 1 0 0 0 0 0 1 D0 C4 0 1 1 1 1 1 0 1E 11 11 11 11 11 1E
Row and Column Locations for a Character "D"
Row 0 Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 0 123 Columns 4
Off LED On LED
IDXX5183
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SCE5740, SCE5741, SCE5742, SCE5743, SCE5744, SCE5745
Row Strobing
Row Load 0 1 2 3 4 5 6 01234 Columns Load Row 0 0 1 2 3 4 5 6 01234 Columns Load Row 1 0 1 2 3 4 5 6 01234 Columns Load Row 2 0 1 2 3 4 5 6 01234 Columns Load Row 3 0 1 2 3 4 5 6 01234 Columns Load Row 4 0 1 2 3 4 5 6 01234 Columns Load Row 5 0 1 2 3 4 5 6 01234 Columns
IDXX5184
Load Row 6
Multiplexer and Display Driver The four characters are row multiplexed with RAM resident column data. The strobe rate is established by the internal or external MUX Clock rate. The MUX Clock frequency is divided by a 448 counter chain. This results in a typical strobe rate of 768 Hz. By pulling the Clock SEL line low, the display can be operated from an external MUX Clock. The external clock is attached to the CLK I/O connection (pin 8). The maximum external MUX Clock frequency should be limited to 3 MHz. When a high speed external clock is used the frequency can be further divided down by 16 by using the built in prescaler. In the control word format data bit D4 is set high (D4=1). It is not recomBasic Instruction Set Instruction LCD LDA SCL LCWD Control Word Format Opcode 000 101 110 111
mended to use the prescaler with the internal clock. An asynchronous hardware Reset (pin 6) is also provided. Bringing this pin low will clear the Character Address Register, Control Word Register, RAM, and blanks the display. This action leaves the display set at Character Address 0, and the Brightness Level set at 100%. The user can activate four Control functions. These include: LED Brightness Level, IC Power Down, Prescaler, or Display Clear. OPCODEs and six bit words are used to initiate these functions. The OPCODEs and Control Words for the Character Address and Loading Column Data are shown in Tables Load Character Address" (page 10) and Load Column Data" (page 10).
Address/Data D4 X PS PS D3 X B3 B3 D2 A2 B2 B2 D1 A1 B1 B1 D0 A0 B0 B0
Comments Load Column Data Load Digit Address Software Clear Load Control Word Data
D7 1
D6 1
D5 1
D4 PS
D3 B3
D2 B2
D1 B1
D0 B0
PS Pre-Scalar 0 No Divide by 16 1 MUX Clock/16
B2 0 0 0 0 1 1 1 1
B1 0 0 1 1 0 0 1 1
B0 0 1 0 1 0 1 0 1
Brightness 100% 53% 40% 27% 20% 13% 6.6% Blank Display & Power Down
B3 Peak Current 0 Full 1 Reduce to 12.5%
IDCW5162
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Load Character Address Op code D7 D6 D5 1 1 1 1 0 0 0 0 1 1 1 1 Character Address D4 D3 D2 D1 D0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 1 0 1 Hex A0 A1 A2 A3 Operation Load Character 0 Character 1 Character 2 Character 3 The SCE574X offers a unique Display Power Down feature which reduces ICC to less than 50 A. When EFHEX is loaded, as shown in Table Power Down" (page 10), the display is set to 0% brightness. When in the Power Down mode data may still be written into the RAM. The display is reactivated by loading a new Brightness Level Control Word into the display. Power Down Op code D7 D6 D5 1 Load Column Data Op code D7 D6 D5 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Column Data D4 D3 D2 D1 C0 C1 C0 C1 C0 C1 C0 C1 C0 C1 C0 C1 C0 C1 C2 C2 C2 C2 C2 C2 C2 C3 C3 C3 C3 C3 C3 C3 Operation Load D0 C4 C4 C4 C4 C4 C4 C4 Row 0 Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 1 1 Control Word D4 D3 D2 D1 0 1 1 1 Hex D0 1 EF Operation Level 0% brightness
The Software Clear (C0HEX), given in Table Software Clear" (page 10), clears the Address Register and the RAM. The display is blanked and the Character Address Register will be set to Character 0. The internal counter and the Control Word Register are unaffected. The Software Clear will remain active until the next data input cycle is initiated. Software Clear Op code D7 D6 D5 1 1 0 Control Word D4 D3 D2 D1 0 0 0 0 Hex D0 0 C0 Operation Level CLEAR
The user can select eight specific LED brightness levels (Table Display Brightness" (page 10)) by changing the peak current driving the LEDs. The peak current is varied by varying the ON time of the row drivers. Note that data line 3 is low (logic 0). If dimming is required with finer control between 12.5% brightness and 0.0% brightness, data line 3 can be set high (logic 1). The 12.5% peak current is now the brightness reference (100%-E8) for further dimming and as shown in Table "Display Brightness" (page 10) eight levels of dimming are provided. For example the hex code EC in Table "Display Brightness" (page 10) will provide a brightness level 29% lower than the 12.5% brightness level. Display Brightness Op code D7 D6 D5 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Control Word D4 D3 D2 D1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 Hex D0 0 1 0 1 0 1 0 1 E0 E1 E2 E3 E4 E5 E6 E7 Operation Level 100% 53% 40% 27% 20% 13% 6.6% 0.0%
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Electrical and Mechanical Considerations Thermal Considerations Optimum product performance can be had when the following electrical and mechanical recommendations are adopted. The IC is constructed in a high speed CMOS process, consequently noise on the SERIAL DATA, SERIAL DATA CLOCK, LOAD and RESET lines may cause incorrect data to be written into the serial shift register. Adhere to transmission line termination procedures when using fast line drivers and long cables (> 10 cm). Good ground and power supply decoupling will insure that ICC (< 400 mA peak) switching currents do not generate localized ground bounce. Therefore it is recommended that each display package use a 0.1 mF and 0 F capacitor between VCC and ground. When the internal MUX Clock is being used connect the CLKSEL pin to VCC. In those applications where RESET will not be connected to the system's reset control, it is recommended that this pin be connected to the center node of a series 0.1 F and 100 k RC network. Thus upon initial power up the RESET will be held low for 10 ms allowing adequate time for the system power supply to stabilize. ESD Protection The input protection structure of the SCE574x provides significant protection against ESD damage. It is capable of withstanding discharges greater than 2.0 kV. Take all the standard precautions, normal for CMOS components. These include properly grounding personnel, tools, tables, and transport carriers that come in contact with unshielded parts. If these conditions are not, or cannot be met, keep the leads of the device shorted together or the parts in anti-static packaging. Soldering Considerations The SCE574x can be hand soldered with SN63 solder using a grounded iron set to 260C. Wave soldering is also possible following these conditions: Preheat that does not exceed 93C on the solder side of the PC board or a package surface temperature of 85C. Water soluble organic acid flux (except carboxylic acid) or rosin-based RMA flux without alcohol can be used. Wave temperature of 245C 5C with a dwell between 1.5 sec. to 3.0 sec. Exposure to the wave should not exceed temperatures above 260C for five seconds at 1.59 mm (0.063") below the seating plane. The packages should not be immersed in the wave. Post Solder Cleaning Procedures The least offensive cleaning solution is hot D.I. water (60 C) for less than 15 minutes. Addition of mild saponifiers is acceptable. Do not use commercial dishwasher detergents. For faster cleaning, solvents may be used. Exercise care in choosing solvents as some may chemically attack the nylon package. For further information refer to Appnotes 18 and 19. An alternative to soldering and cleaning the display modules is to use sockets. Naturally, 14 pin DIP sockets 7.62 mm (0.300") wide with 2.54 mm (0.100") centers work well for single displays. Multiple display assemblies are best handled by longer SIP sockets or DIP sockets when available for uniform package alignment. Optical Considerations The 4.57 mm (0.180") high character of the SCE574x gives readability up to five feet. Proper filter selection enhances readability over this distance. Using filters emphasizes the contrast ratio between a lit LED and the character background. This will increase the discrimination of different characters. The only limitation is cost. Take into consideration the ambient lighting environment for the best cost/benefit ratio for filters. Incandescent (with almost no green) or fluorescent (with almost no red) lights do not have the flat spectral response of sunlight. Plastic band-pass filters are an inexpensive and effective way to strengthen contrast ratios. The SCE5740 is a red display and should be used with long wavelength pass filter having a sharp cut-off in the 600 nm to 620 nm range. The SCE5742 is a super-red display and should be used with long wavelength pass filter having a sharp cut-off in the 570 nm to 600 nm range. The SCE5744 is a high efficiency green display and should be used with long wavelength pass filter that peaks at 565 nm. Additional contrast enhancement is gained by shading the displays. Plastic band-pass filters with built-in louvers offer the next step up in contrast improvement. Plastic filters can be improved further with anti-reflective coatings to reduce glare. Optimal filter enhancements are gained by using circular polarized, anti-reflective, band-pass filters. The circular polarizing further enhances contrast by reducing the light that travels through the filter and reflects back off the display to less than 1%. Several filter manufacturers supply quality filter materials. Some of them are: Panelgraphic Corporation, W. Caldwell, NJ; SGL Homalite, Wilmington, DE; 3M Company, Visual Products Division, St. Paul, MN; Polaroid Corporation, Polarizer Division, Cambridge, MA; Marks Polarized Corporation, Deer Park, NY, Hoya Optics, Inc., Fremont, CA.One last note on mounting filters: recessing displays and bezel assemblies is an inexpensive way to provide a shading effect in overhead lighting situations. Several Bezel manufacturers are: R.M.F. Products, Batavia, IL; Nobex Components, Griffith Plastic Corp., Burlingame, CA; Photo Chemical Products of California, Santa Monica, CA; I.E.E.-Atlas, Van Nuys, CA. The trade-off is fuzzy characters. Mounting the filters close to the display reduces this effect. Take care not to overheat the plastic filter by allowing for proper air flow. Microprocessor Interface The microprocessor interface is through the serial port, SPI port or one out of eight data bits on the eight bit parallel port and also control lines SDCLK and LOAD. Power Up Sequence Upon power up display will come on at random. Thus the display should be reset at power-up. The reset will set the Address Register to Digit 0, User RAM is set to 0 (display blank) the Control Word is set to 0 (100% brightness) and the internal counters are reset.
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Display Interface to Siemens/Intel 8031 Microprocessor (using serial port in mode 0)
VCC
40 18 XTAL2 RxD 10
VCC
19
XTAL1 U1 8031
TxD
11
5 2
SDCLK LD ID RST GND
DATA
3
22 F TAN
+
VCC
9 RST
P3.7 P3.3 P3.4
17 13 14
6 7
VCC
CLKSEL CLK I/O
1 14 8 0.01 F
IDCD5027
Display Interface to Siemens/Intel 8031 Microprocessor (using one bit of parallel port as serial port)
VCC
40 18 XTAL2 P3.0 P3.1 XTAL1 U1 8031 1 9 20 RST P1.0 P3.6 P0.0 16 39 5 2 6 7 SDCLK LD ID RST GND DATA 3 1 14 8 0.01 F 22 F TAN
+
IDCD5028
10 11
VCC
19
VCC
VCC
CLKSEL CLK I/O
Display Interface with Motorola 68HC05C4 Microprocessor (using SPI port)
VCC
40 38 OSC1 PA0 PA1 OSC2 U1 68HC05C4 1 9 20 RST PA2 SCLK MOSI 33 32 5 2 6 7 SDCLK LD ID RST GND DATA 3 1 14 8 0.01 F 22 F TAN
+
IDCD5029
11 10
VCC
39
VCC
VCC
CS CLK I/O
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Cascading Multiple Displays using only the SCE574x.
RST
VCC
RST CLK I/O CLK SEL 14 more displays in between LOAD DATA RST CLK I/O CLK SEL
Intelligent Display DATA DATA SDCLK SDCLK
Intelligent Display SDCLK LOAD
A0 A1 A2 A3 LD
0 Address Decoder Chip 15 CE
IDCD5030
Address Decode 1-14
Multiple displays can be cascaded using the CLK SEL and CLK I/O pins (Figure Cascading Multiple Displays using only the SCE574X" (page 13)). The display designated as the MasterClock source should have its CLK SEL pin tied high and the slaves should have their CLK SEL pins tied low. All CLK I/O pins should be tied together. One display CLK I/O can drive 15 slave CLK I/Os. Use RST to synchronize all display counters. Loading Data into the Display Use following procedure to load data into the display: 1. Power up the display. 2. Bring RST low (600 ns duration minimum) to clear the Multiplex Counter, Address Register, Control Word Register, User Ram and Data Register. The display will be Data Contents for the Word "ABCD"
Step A B (optional) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 D7 1 1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 D6 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 D5 0 1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 D4 0 0 0 0 0 1 1 1 1 1 0 1 1 1 1 1 1 1 0 0 0 1 1 1 0 0 0 1 1 1 1 1 1 1 D3 0 0 0 0 1 0 1 0 0 0 0 1 0 0 1 0 0 1 0 0 1 0 0 0 1 0 0 1 0 0 0 0 0 1 D2 0 0 0 1 0 0 1 0 0 0 0 1 0 0 1 0 0 1 0 1 0 0 0 0 0 1 0 1 0 0 0 0 0 1 D1 0 0 0 0 1 0 1 0 0 0 0 1 0 0 1 0 0 1 1 1 0 0 0 0 0 1 1 1 0 0 0 0 0 1 D0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 0 1 1 1 0 1 0 0 0 0 0 1 1 0 1 1 1 1 1 0 Function CLEAR 100% BRIGHTNESS DIGIT D0 SELECT ROW 0 (A) ROW 1 (A) ROW 2 (A) ROW 3 (A) ROW 4 (A) ROW 5 (A) ROW 6 (A) DIGIT D1 SELECT ROW 0 (B) ROW 1 (B) ROW 2 (B) ROW 3 (B) ROW 4 (B) ROW 5 (B) ROW 6 (B) DIGIT D2 SELECT ROW 0 (C) ROW 1 (C) ROW 2 (C) ROW 3 (C) ROW 4 (C) ROW 5 (C) ROW 6 (C) DIGIT D3 SELECT ROW 0 (D) ROW 1 (D) ROW 2 (D) ROW 3 (D) ROW 4 (D) ROW 5 (D) ROW 6 (D)
3. 4. 5. 6.
blank. Display brightness is set to 100%. If a different brightness is desired, load the proper brightness opcode into the Control Word Register. Load the Digit Address into the display. Load display row and column data for the selected digit. Repeat steps 4 and 5 for all digits.
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SCE5740, SCE5741, SCE5742, SCE5743, SCE5744, SCE5745
Detail Drawing of SCE574x Dimensions in inch (mm)
3.81 (0.150)
SCE574X Z OSRAM XXYY
V
Luminous Intensity Code 0.46 (0.018) 2.54 (0.100) 12 pl. Non cumulative
4.06 (0.160)0.51 (0.020)
0.3 (0.012)
0.05 (0.002)
7.62 (0.300) 0.51 (0.020)
19.91 (0.784) 2.54 (0.100) 5.00 (0.197)
10.16 (0.400) 0.38 (0.015)
3 pl.
4.57 (0.180)
5.08 (0.200)
Dimensions in inches (mm) Tolerance: .XXX = .010 (.25)
IDOD5007
Pin 1 Indicator
Part Number
EIA Date Code
Pin Functions for SCE574x
Pin # 1 Function VCC Load Pin # 6 Function RESET Top View Typical Character
Pin 14
2 7 GROUND
Pin 8
3
Data
8
CLK I/O
4
No Pin
9--13
No Pins
Pin 1
5 SDCLK 14 CLK SELECT
Pin 7
IDPA5107
0.56 (0.022)
IDOD5008
2006-03-30
14
0.71 (0.028)
SCE5740, SCE5741, SCE5742, SCE5743, SCE5744, SCE5745
Detail Drawing of SCE574xP (SIP configuration)
Pin 1 Indicator Part Number
SCE574XP Z OSRAM XXYY
Dimensions in inch (mm)
5.08 (0.200) 3.81 (0.150)
5.08 (0.200)
4.06 (0.160) 0.51 (0.020)
IDOD5010
EIA Date Code
V
Luminous Intensity Code 0.46 (0.018) 8 pl. 2.54 (0.100) 4 pl. Tol. Non Accum. 5.08 (0.200)
0.3 (0.012) 6 pl.
19.91 (0.784) 1.22 (0.048) 5 (0.197) 3 pl.
10.16 (0.400)
4.57 (0.180)
2.54 (0.100) 4 pl.
Unless otherwise specified, tolerance on dimensions is 0.25 (0.010)
IDOD5009
Detail Drawing of SCE574xQ (SIP configuration with right angle bend Dimensions in inch (mm))
Pin 1 Indicator EIA Date Code Part Number
SCE574XQ Z OSRAM XXYY
V
0.46 (0.018) 6 pl. 2.54 (0.100) 4 pl. Tol. Non Accum. 5.08 (0.200)
19.91 (0.784) 1.22 (0.048) 5 (0.197) 3 pl.
0.56 (0.022)
4.57 (0.180)
10.16 (0.400)
IDOD5011
2.54 (0.100) 4 pl.
Unless otherwise specified, tolerance on dimensions is 0.25 (0.010)
Pin Functions for SCE574xP and SCE574xQ Pin # 1 2 3 4 5 6 7 Function VCC Load Data No Pin SDCLK RESET GND Top View Typical Character
1.26 (0.050) 0.51 (0.020)
0.71 (0.028)
3.81 (0.150)
Luminous Intensity Code
4.06 (0.160) 0.51 (0.020)
Pin 1
Pin 7
IDPA5108
0.56 (0.022)
IDOD5011
2006-03-30
15
0.71 (0.028)
SCE5740, SCE5741, SCE5742, SCE5743, SCE5744, SCE5745
Revision History: 2006-03-30 Previous Version: 2005-01-10 Page all Subjects (major changes since last revision) Lead free device Date of change 2006-01-23
Published by
OSRAM Opto Semiconductors GmbH Wernerwerkstrasse 2, D-93049 Regensburg www.osram-os.com (c) All Rights Reserved.
Attention please! The information describes the type of component and shall not be considered as assured characteristics. Terms of delivery and rights to change design reserved. Due to technical requirements components may contain dangerous substances. For information on the types in question please contact our Sales Organization. If printed or downloaded, please find the latest version in the Internet. Packing Please use the recycling operators known to you. We can also help you - get in touch with your nearest sales office. By agreement we will take packing material back, if it is sorted. You must bear the costs of transport. For packing material that is returned to us unsorted or which we are not obliged to accept, we shall have to invoice you for any costs incurred. Components used in life-support devices or systems must be expressly authorized for such purpose! Critical components1) may only be used in life-support devices or systems2) with the express written approval of OSRAM OS.
1) 2)
A critical component is a component used in a life-support device or system whose failure can reasonably be expected to cause the failure of that life-support device or system, or to affect its safety or the effectiveness of that device or system. Life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain and sustain human life. If they fail, it is reasonable to assume that the health and the life of the user may be endangered.
2006-03-30
16

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