led control ic W2RF002RF 1 led control ic W2RF002RF most suitable ic for controlling led effects within applications ? free-running pwm gradation control, with up to 1,024 levels, en- ables the representation of beautif ul fade-in and fade-out effects. ? cpu load can be reduced by controlling lighting gradation and speed. ? up to 49 pieces of this ic can be connected on the same serial bus communication line. device group setting is also possible. ? 24 line outputs are contained in the 7 x 7 mm package. ? use with omron?s w2rv005rm constant current ic to directly drive multiple led?s in series. ? rohs compliant ordering information specifications absolute maximum ratings (ta = 25c) note: 1. take the power consumption and power dissipation rating into consideration. 2. when implemented on a standard board (70 x 70 x 1.6 mm, cu 3%, single-sided glass epoxy board). the value reduces at a rate of about 9.52 mw/ c when the ic is used at ta = 25 c or higher. recommended operating conditions note: 1. take the timing characteristics into consideration. dc electrical characteristics (ta = 25c, v dd = 5v) description model led control ic W2RF002RF item symbol rating supply voltage v dd -0.3 to 7.0 v input voltage v in -0.3 to v dd + 0.3 7.0 v communication output voltage (scl-o, sda-o) v sout -0.3 to v dd + 0.3 7.0 v driving output voltage v dout -0.3 to 20 v driving output current/pin (see note 1) i dout 50 ma (when v dd = 5.0 v) 30 ma (when v dd = 3.3 v) power dissipation pd 1.19 w (see note 2) operating temperature t opr -20 to 85 c storage temperature t stg -40 to 150 c item symbol rating supply voltage v dd 3.0 to 5.5 v input voltage v in 0 to v dd v communication output current (scl-o, sda-o) i sout -10 to 10 ma communication clock frequency (scl-i) f scl max. 5 mhz (see note 1) item symbol condition spec. unit applicable terminal min. typ. max. high-level input voltage v ih - - - v dd x 0.7 - - - - - - v sda-i, scl-i, rst , inv, adra0 to 2, adrb0 to 2 low-level input voltage v il - - - - - - - - - v dd x 0.3 v high-level communication output voltage v soh i out = -10 ma v dd - 0.5 - - - - - - v sda-o, scl-o low-level communication output voltage v sol i out = 10 ma - - - - - - 0.5 v driving output voltage 1 v do1 i out = 50 ma - - - 0.27 0.60 v outa0 to 7 outb0 to 7 outc0 to 7 driving output voltage 2 v do2 i out = 20 ma - - - 0.10 0.22 v driving output leakage current i doz v out = 5 v - - - - - - 1.0 a operating current consumption i dd total output: i out = 50 ma - - - 3.2 5.3 ma v dd
2 led control ic W2RF002RF timing characteristics (ta = 25 c, v dd = 5v) engineering data block diagram item symbol condition spec. unit applicable terminal min. typ. max. driving output pwm cycle t pwm - - - 3.88 4.00 4.12 ms outa0 to 7 outb0 to 7 outc0 to 7 communication clock pulse width t scl - - - 100 - - - - - - ns scl-i setup time t set - - - 50 - - - - - - ns sda-i, scl-i hold time t hld - - - 50 - - - - - - ns scl-i valid fig. 1 input timing waveforms sda-i t scl t scl t set t hld outa0 outb0 outc0 gradation control a0 gradation control b0 gradation control c0 gradation control a1 gradation control b1 gradation control c1 gradation control a7 gradation control b7 gradation control c7 output circuit outa1 outb1 outc1 outa2 outb2 outc2 outa3 outb3 outc3 outa6 outb6 outc6 outa7 outb7 outc7 vz1 vz2 register communi- cation circuit clock division circuit system clock reset operational control filter filter buffer buffer internal oscillation filter sda-i scl-i adra2 adra1 adra0 rst gnd vdd sda-o scl-o adrb2 adrb1 adrb0 cap inv
led control ic W2RF002RF 3 terminal designation note: 1. the rst terminal is connected to an internal 100 k pull-up resistor. when this term inal is not used, connect a 0.1 f capacitor between the terminal and ground to prevent misoperation at power-on. 2. connect the cap terminal to a capacitor for smoothing power supply. connect a 0.1 f capacitor between the terminal and gnd. 3. the vz1 and vz2 terminals are for driving output protection. connect them to the power source of a driving system. when several driving system power supplies are used, connect the terminals to the highest potential among them. when these terminals are not used, leave th em open. 4. always leave the tst1 and tst2 terminals open. 5. leave unused output terminals open. terminal number terminal name description i/o logic function 1 sda-i serial data input i cmos, filter 2 scl-i serial clock input i 3 rst reset (see note 1) i l: reset cmos, filter, pull-up 4 v dd power source p 5 cap capacitor (see note 2) - - - 6 gnd ground p 7 adra2 device address a2 i refer to operaton section (see note 4) cmos 8 adra1 device address a1 i 9 adra0 device address a0 i 10 adrb2 device address b2 i 11 adrb1 device address b1 i 12 adrb0 device address b0 i 13 inv output inversion i 14 gnd ground p 15 outa0 output a0 o n-ch open drain 16 outb0 output b0 o 17 outc0 output c0 o 18 outa1 output a1 o 19 outb1 output b1 o 20 outc1 output c1 o 21 vz1 output protection 1(see note 3) - - - 22 gnd ground p 23 outa2 output a2 o n-ch open drain 24 outb2 output b2 o 25 outc2 output c2 o 26 outa3 output a3 o 27 outb3 output b3 o 28 outc3 output c3 o 29 gnd ground p 30 outa4 output a4 o n-ch open drain 31 outb4 output b4 o 32 outc4 output c4 o 33 outa5 output a5 o 34 outb5 output b5 o 35 outc5 output c5 o 36 gnd ground p 37 vz2 output protection 2(see note 3) - - - 38 outa6 output a6 o n-ch open drain 39 outb6 output b6 o 40 outc6 output c6 o 41 outa7 output a7 o 42 outb7 output b7 o 43 outc7 output c7 o 44 gnd ground p 45 tst1 not used (see note 4) - - - 46 tst2 not used (see note 4) - - - 47 sda-o serial data buffer output o cmos 48 scl-o serial clock buffer output o
4 led control ic W2RF002RF operation functional overview receiving commands the ic recieves commands with two-wire serial communication to control 24 led lines. commands are received in a 40-bits-per-co mmand com- munication format. gradation control the lighting of the 24 led lines is cont rolled individually or by group with 16-le vel lighting gradation and 32-level lighting speed. the exponential control of output duty cycle allows lighting gradation that matches the human visual characterist ics. in addition, the specific ation of lighting speed allows fade-in and fade-out with up to 1,024 levels. number of control lines the ic has two device address lines, each of which can be configured in seven ways by te rminal configuration. this provides up to 49 patterns of device address configuration, al lowing up to 1,176 lines to be controlled on the same communication line. two device address li nes can be com- bined to configure a device group. communication specifications input signals to sda-i and scl-i are input via the filt er circuit (0.1 s delay) to the communication circuit. an sda-i signal that is input to the com- munication circuit is taken in as serial data at the rising e dge of an scl-i signal. when serial data is received in a differen t format from the com- munication format, the data will be invalid. when the start signal, ?111111111? is detected, the communication ci rcuit takes in data as new serial data, whether it is on st and-by or in the middle of intake of serial data. input signals to sda-i and scl-i will be output via the asynchronous buffer to sda- o and scl-o without going through the filter circuit. description of communication format control command device selection data (8 bits) the device id is fixed. the correspondence between the device addresses a and b and the setting terminals adra0 to 2 and adrb0 to 2 is shown in the table. (setting ?l?...data ?0?. setting ?h?...data ?1?). when adra0 to 2 = ?111?, the device address a line is specified collectively, and when adrb0 to 2 = ?111?, the device address b line is specified collectively. because up to 7 addresses can be specified for each of device address a and device address b, t heir combination allows the spec ification of up to 49 addresses. 000xxx scl-i name start (break) device id device address a device address b device selection data dvc_dat[7:0] (break) control control data ctrl_dat[6:0] output address (break) end lighting data light_dat[8:0] lighting speed lighting gradation sda-i 111111111000 bit 1 23456 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 33 34 35 36 37 38 39 40 communication format device id device-specific id (fixed to ?00? for this ic) device address a specified with the adra0 to 2 terminals device address b specified with the adrb0 to 2 terminals control specifies control (data saving / immediate reflection) output address specifies the terminal to output (individual specification and collec tive specification are possible) lighting speed specifies changing speed of free-runni ng gradation control (32 levels) lighting gradation specifies the brightness of lighting (16 levels) device selection data dvc_dat (7:0) device id device address a device address b 0 0 adra2 adra1 adra0 adrb2 adrb1 adrb0 device selection data control data lighting data
led control ic W2RF002RF 5 control data (7 bits) the control signal, ?ctrl?, activates the operat ional control shown in the following table. ? when ctrl = ?0?, latch operation is activated, in which data is only stored in latch registers and will not be reflected in the output. ? when ctrl = ?1?, load operation is activated, in which data is stored in the specified latch registers and the data of the latc h registers in all addresses will be stored in the load registers. the output terminals in the following table are specified with the output address o_adr(5:0) control data ctrl_dat (6:0) control output address ctrl o_adr(5) o_adr(4) o_adr(3) o_adr(2) o_adr(1) o_adr(0) control (ctrl) operational control 0 latch 1 load output address o_adr (5:0) output terminal (5) (4) (3) (2) (1) (0) 000000 outa0 000001 outa1 000010 outa2 000011 outa3 000100 outa4 000101 outa5 000110 outa6 000111 outa7 001000 outb0 001001 outb1 001010 outb2 001011 outb3 001100 outb4 001101 outb5 001110 outb6 001111 outb7 010000 outc0 010001 outc1 010010 outc2 010011 outc3 010100 outc4 010101 outc5 010110 outc6 010111 outc7 011000 outa0, outa2, outa4, outa6 011001 outa1, outa3, outa5, outa7 011010 outb0, outb2, outb4, outb6 011011 outb1, outb3, outb5, outb7 011100 outc0, outc2, outc4, outc6 011101 outc1, outc3, outc5, outc7 011110 outa0, outa2, outa4, outa6 outb0, outb2, outb4, outb6 outc0, outc2, outc4, outc6 011111 outa1, outa3, outa5, outa7 outb1, outb3, outb5, outb7 outc1, outc3, outc5, outc7 output address o_adr (5:0) output terminal (5) (4) (3) (2) (1) (0) 1 0 0 0 0 0 outa0, outa1, outa4, outa5 1 0 0 0 0 1 outa2, outa3, outa6, outa7 1 0 0 0 1 0 outb0, outb1, outb4, outb5 1 0 0 0 1 1 outb2, outb3, outb6, outb7 1 0 0 1 0 0 outc0, outc1, outc4, outc5 1 0 0 1 0 1 outc2, outc3, outc6, outc7 100110 outa0, outa1, outa4, outa5 outb0, outb1, outb4, outb5 outc0, outc1, outc4, outc5 100111 outa2, outa3, outa6, outa7 outb2, outb3, outb6, outb7 outc2, outc3, outc6, outc7 1 0 1 0 0 0 outa0, outa1, outa2, outa3 1 0 1 0 0 1 outa4, outa5, outa6, outa7 1 0 1 0 1 0 outb0, outb1, outb2, outb3 1 0 1 0 1 1 outb4, outb5, outb6, outb7 1 0 1 1 0 0 outc0, outc1, outc2, outc3 1 0 1 1 0 1 outc4, outc5, outc6, outc7 101110 outa0, outa1, outa2, outa3 outb0, outb1, outb2, outb3 outc0, outc1, outc2, outc3 101111 outa4, outa5, outa6, outa7 outb4, outb5, outb6, outb7 outc4, outc5, outc6, outc7 110000 outa0, outb0, outc0 110001 outa1, outb1, outc1 110010 outa2, outb2, outc2 110011 outa3, outb3, outc3 110100 outa4, outb4, outc4 110101 outa5, outb5, outc5 110110 outa6, outb6, outc6 110111 outa7, outb7, outc7 111000 (no terminal) 111001 all outa 111010 all outb 111011 all outa, all outb 111100 all outc 111101 all outa, all outc 111110 all outb, all outc 111111 all outa, all outb, all outc
6 led control ic W2RF002RF lighting data (9 bits) lighting is controlled in each line with the values of the load registers. in lighting control, the gradation changes to the sp ecified one at the specified lighting speed the lighting speed follows the table below. the change time is specified with 5 bits; note: the change time per 1/15 of brightness represents the time required for a change from, for example, 10/15 to 11/15 of brightness. the change time from 0/15 to 15/15 of brightness and vice versa rep- resents the time required for a change from 0/15 of brightness (light off) to 15/15 of brightness (light completely on). however, these times are median values and depend on the driving output pwm cycle. the lighting gradation follows the table below. the brightness is specified with 4 bits; lighting data light_dat (8:0) lighting speed lighting gradation spd(4) spd(3) spd(2) spd(1) spd( 0) brt(3) brt(2) brt(1) brt(0) lighting speed spd(4:0) change time per 1/15 of brightness change time from 0/15 to 15/15 of brightness (and vice versa) (4) (3) (2) (1) (0) 0 0 0 0 0 less than 60 s less than 1 ms 0 0 0 0 1 8.5 ms 0.128 s 0 0 0 1 0 10.7 ms 0.160 s 0 0 0 1 1 12.8 ms 0.192 s 0 0 1 0 0 14.9 ms 0.224 s 0 0 1 0 1 17.1 ms 0.256 s 0 0 1 1 0 21.3 ms 0.320 s 0 0 1 1 1 25.6 ms 0.384 s 0 1 0 0 0 29.9 ms 0.448 s 0 1 0 0 1 34.1 ms 0.512 s 0 1 0 1 0 42.7 ms 0.640 s 0 1 0 1 1 51.2 ms 0.768 s 0 1 1 0 0 59.7 ms 0.896 s 0 1 1 0 1 68.3 ms 1.024 s 0 1 1 1 0 85.3 ms 1.280 s 0 1 1 1 1 102 ms 1.536 s 1 0 0 0 0 119 ms 1.792 s 1 0 0 0 1 137 ms 2.048 s 1 0 0 1 0 171 ms 2.560 s 1 0 0 1 1 205 ms 3.072 s 1 0 1 0 0 239 ms 3.584 s 1 0 1 0 1 273 ms 4.096 s 1 0 1 1 0 341 ms 5.120 s 1 0 1 1 1 410 ms 6.144 s 1 1 0 0 0 478 ms 7.168 s 1 1 0 0 1 546 ms 8.192 s 1 1 0 1 0 683 ms 10.24 s 1 1 0 1 1 819 ms 12.29 s 1 1 1 0 0 956 ms 14.34 s 1 1 1 0 1 1,092 ms 16.38 s 1 1 1 1 0 1,365 ms 20.48 s 1 1 1 1 1 1,638 ms 24.58 s lighting gradation brt(3:0) brightness pwm duty ratio (reference) (3) (2) (1) (0) 0000 0/15 (light off) 0 % 0001 1/15 0.42 % 0010 2/15 0.84 % 0011 3/15 1.25 % 0100 4/15 1.78 % 0101 5/15 2.61 % 0110 6/15 3.76 % 0111 7/15 5.42 % 1000 8/15 7.96 % 1001 9/15 11.3 % 1010 10/15 16.7 % 1011 11/15 23.3 % 1100 12/15 35.2 % 1101 13/15 48.4 % 1110 14/15 73.4 % 1111 15/15 (light completely on) 100 %
led control ic W2RF002RF 7 functional terminals/setting terminals application example adr terminals the adra terminal and adrb terminal set device address a and device address b, respectively. for ?h? setting, connect the terminal to v dd and for ?l? setting, connect the terminal to gnd inv terminal this terminal sets the polarity of out terminal. ? when the terminal is used with ?l? as active (e.g., for directly drivi ng an led), connect the terminal to v dd ? when the terminal is used with the ?h? as active (e.g., for driving an led with a driving transistor), connect the terminal to gnd. rst terminal when the voltage of the rst terminal becomes ?l?, the internal circui t will be reset and the output will be open. 5 v 12 v w2rv005rm 23 24 25 26 27 28 30 31 32 33 34 35 38 39 40 41 42 43 15 16 17 21 37 18 19 20 r g b r r g b g b r g b outa0 outb0 outc0 outa1 outb1 outc1 outa2 outb2 outc2 outa3 outb3 outc3 outa4 outb4 outc4 outa5 outb5 outc5 outa6 outb6 outc6 outa7 outb7 outc7 vz1 vz2 W2RF002RF receiving circuit transmitting circuit 0.1 f c1 nc nc 0.1 f c2 0.1 f c3 vdd sda-i scl-i adra2 7 tst1 tst2 adra1 adra0 gnd adrb2 adrb1 adrb0 8 9 10 11 12 sda-o scl-o 1 2 47 48 4 6 14 22 29 36 44 gnd gnd gnd gnd gnd inv 13 rst 3 cap 5 45 46
8 led control ic W2RF002RF dimensions tape packaging packaging style: embossed taping packaging quantity: 1,500 pcs/reel index mark type trademark lot no. 37 48 1 12 13 36 25 24 m 0.08 0.08 0.5 0.1 7 0.1 9 0.2 1.5 0.05 0.1 0.05 4o +6o -4o 0.22 +0.05 -0.04 0.145 +0.05 -0.03 s s (unit : mm) 1.6 (max.) 0.5 0.15 1 0.2 7 0.1 9 0.2 7.5 7.5 1(min) 0.5 0.25 1(min) recommended pcb layout reel no.1pin drawing direction (330) 22.5(max) ? 20.2(min) 17.51.0 (80) 1.5(min) 13.00.2 direction of insertion reel dimensions 16.00.3 ? 1.5 +0.1 -0 4.00.1 2.00.1 0.30.05 12.00.1 2.20.1 9.80.1 ? 1.6 +0.1 -0 7.50.1 10.80.1 9.50.1 9.50.1 1.750.1 1.70.1 (0.8) (1.4) (6.0) (6.0) embossed tape dimensions
led control ic W2RF002RF 9 precautions for use correct use ? the absolute maximum rating is the limit value which should not be exceeded even in a flash. exceedi ng this value can cause deterio- ration of the characteristics or complete failure of the ic. ? check the operation at the communication frequency to be used before using the device. ? sufficiently take into considerati on the static electricity, chattering and voltage of the input to be connected when determining each input circuit. ? although the device contains an esd protection circui t, static elec- tricity that exceeds the function may damage the device. when handling the device, exercise due caution by, for example, ground- ing the human body. ? due to potential damage, do not use product that has been dropped or that has come into contact with water. recommended reflow conditions allowable temperature profile conditions product mounting method should be by reflow and we recommend the following temperature profile. reflow no more than two times, maximum. storage conditions before mounting moisture absorption by the plasti c package will increase the possibil- ity of faults, such as cracks; therefore, take enough care for storage. rohs directive compliance models that are indicated as being rohs compliant are free of the following six substances. lead: 1,000 ppm max. mercury: 1,000 ppm max. cadmium: 100 ppm max. hexavalent chromium: 1,000 ppm max. pbb: 1,000 ppm max. pbde: 1,000 ppm max. lot code indication storage conditions period 5 to 30c, 40 to 70%rh one year time package surface temperature 10s (max) 250c 260c (max) 60~120s 140c 200c 220c 60s (max) control code: three-digit alphanumeric characters production year: the last one digit of the year production week: serial number starting from week01 including january1
10 led control ic W2RF002RF omron on-line global - http://www.omron.com usa - http://www.components.omron.com cat. no. ocb-am am-w2-ao-005(e) printed in usa omron electronic components llc 55 e. commerce drive, suite b schaumburg, il 60173 847-882-2288 08/12 specifications subject to change without notice all sales are subject to omron electronic components llc standard terms and conditions of sale, which can be found at http://www.components.omron.com/compon ents/web/webfiles.ns f/sales_terms.html all dimensions shown are in millimeters. to convert millimeters into inches, multiply by 0.0393 7. to convert grams into ounces, multiply by 0.03527.
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