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| 1/13 www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. led drivers for led decoration led driver for indicators and signage bd7844aefv description bd7844aefv is led display driver. it can control 16ch nch open drain output for led drive. it can control the luminance of the leds by the setting of the internal regist er, with 256 steps pwm control. it supports i 2 c interface. htssop-b28 (with back-side metal for heat radiation) package. features 1) 16ch 80ma (absolute maximum rating) 2) conforming to i 2 c -bus i/f (1mhz fast mode plus) 3) either of interactive or single dire ction can be selected with the i2csel pin. (2mhz clock frequency on single direction) 4) independent setting of output brightness is possible by register setting for each channel. (pwm 256 steps) 5) power supply voltage : 4.5 5.5v 6) max voltage of open-drain output terminals: 20.0v (absolute maximum rating) 7) built-in thermal shutdown (tsd circuit 8) built-in power-on reset circuit 9) small package with back-side metal for heat radiation: htssop-b28 absolute maxi mum ratings (ta=25 ) parameter symbol ratings unit power supply voltage vddmax1 - 0.3 7.0 v operating voltage range vddmax2 4.5 5.5 v output terminal voltage voutmax - 0.3 20.0 v output terminal current ioutmax 80 *1 ma/ch logic input terminal voltage vinmax - 0.3 vdd+0.3 Q 7.0 v permissible dissipation pd 1.45 *2 w operating temperature range topr - 40 85 storage temperature range tstr - 55 150 junction temperature tjmax 150 please be careful that the anti-radiation design is not applied to this ic. *1) please take the ic?s power consumption & permissib le dissipation into consideration before using it. *2) mounted on rohm standard board (70mm 70mm1.6mm (thickness), glass-epoxy board). ta = 2 5 or more, it is reduced with 11.6 w/ . operating conditions (ta=-40~85 ) parameter symbol ratings unit conditions power supply voltage vdd 4.5 5.5 v high level input voltage vih vddx0.7 vdd v sda,scl,resetb, i2csel,a0,a1,a2,a3 low level input voltage vil 0 vddx0.3 v low level output current iol 30 ma sda no.11107eat01
technical note 2/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. electrical characteristics (unless otherwise specified, ta=25 , vdd=5.0v, gnd=0v) parameter symbol limits unit conditions min. typ. max. vdd circuit current1(all ch off) idd1 8.7 11.9 ma input pin fixed vdd circuit current2(all ch full on) idd2 9.5 13.0 ma input pin fixed input/output leak current ileak1 1.0 a sda,scl,a0,a1,a2,a3 vin = vdd or gnd pull up resistor rrstb 30 60 90 k ? resetb ri2c 55 110 165 k ? i2csel output pin leak current ileak2 1.0 a out0 out15 vout = 20v power on reset voltage vpor 2.4 v low level output current iol 30 ma sda vol = 0.4v low level output voltage vol 200 550 mv out0 out15 iout = 80ma resistor at on ron 2.5 6.875 ? out0 out15 iout = 80ma input capacitance ci 6 pf scl,resetb,i2csel, a0,a1,a2,a3 i/o capacitance cio 12 pf sda logic signal timing specification (unless otherwise specified, ta=25 , vdd=5.0v, gnd=0v) parameter symbol limits unit conditions min. typ. max. scl clock frequency 1 fscl1 - - 1.0 mhz i2csel=h : sda=i/o scl clock frequency 2 fscl2 - - 2.0 mhz i2csel =l : sda=input bus free time between a stop and start condition *1 tbuf 500 - - ns hold time (repeated) start condition. after this period, the first clock is generated thd;sta 260 - - ns set-up time for a repeated start condition tsu;sta 260 - - ns set-up time for stop condition tsu;sto 260 - - ns sda data hold time thd;dat 0 - - ns sda data valid acknowledge time *2 tvd;ack - - 450 ns i2csel =h : sda=i/o sda data valid time *3 tvd;dat - - 450 ns i2csel =h : sda=i/o sda data set-up time tsu;dat 50 - - ns scl clock low period1 tlow1 500 - - ns i2csel =h : sda=i/o scl clock high period1 thigh1 260 - - ns i2csel =h : sda=i/o scl, sda fall time1 tf1 - - 120 ns i2csel =h : sda=i/o scl, sda rise time1 tr1 - - 120 ns i2csel =h : sda=i/o scl clock low period2 tlow2 230 - - ns i2csel =l : sda=input scl clock high period2 thigh2 250 - - ns i2csel =l : sda=input scl, sda fall time2 tf2 - - 50 ns i2csel =l : sda=input scl, sda rise time2 tr2 - - 50 ns i2csel =l : sda=input pulse width of spikes which must be suppressed by scl, sda filter tsp - 50 - ns reset pulse width *4 tw - 10 - ns *1) keep more than 100us bus free time after power on. *2) tvd;ack :time for acknowledge signal from scl=?l? to sda(output)=?l? *3) tvd;dat :time for from scl= ?l? to sda valid data output *4) miss-operation is likely to happen with reset in accessing i 2 c bus. technical note 3/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. block diagram / application circuit example fig.1 block diagram / application circuit example 4.5v ? 5.5v vco resetb sd a scl enable i2c filter i2csel a0 logic resetb tsd por gnd 16mhz out0 ndmos output sink type pwm0 out1 pwm1 out14 pwm14 vled max 20v gnd gnd a1 a2 a3 vdd out15 pwm15 technical note 4/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. pin arrangement [top view fig.2 pin arrangement pin functions pin no pin name i/o pull up register unused terminal setting esd diode functions for power for ground 1 i2csel i 110k ? gnd vdd gnd i 2 c access mode select for sda (h: i/o, l: input only) 2 a0 i - gnd vdd gnd slave address setting 3 a1 i - gnd vdd gnd slave address setting 4 a2 i - gnd vdd gnd slave address setting 5 a3 i - gnd vdd gnd slave address setting 6 out0 o - gnd - gnd open drain output 7 out1 o - gnd - gnd open drain output 8 out2 o - gnd - gnd open drain output 9 out3 o - gnd - gnd open drain output 10 gnd - - gnd vdd - ground 11 out4 o - gnd - gnd open drain output 12 out5 o - gnd - gnd open drain output 13 out6 o - gnd - gnd open drain output 14 out7 o - gnd - gnd open drain output 15 out8 o - gnd - gnd open drain output 16 out9 o - gnd - gnd open drain output 17 out10 o - gnd - gnd open drain output 18 out11 o - gnd - gnd open drain output 19 gnd - - gnd vdd - ground 20 out12 o - gnd - gnd open drain output 21 out13 o - gnd - gnd open drain output 22 out14 o - gnd - gnd open drain output 23 out15 o - gnd - gnd open drain output 24 gnd - - gnd vdd - ground 25 resetb i 60k gnd vdd gnd reset input pin (l: reset, h: reset cancel) 26 scl i - gnd - gnd serial clock input pin 27 sda i/o - gnd - gnd serial data i/o pin 28 vdd - - gnd - gnd power supply * please connect the unused led pins to the ground. * it is prohibition to set the registers for unused led. technical note 5/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. definition of logic signal timing trec treset tw 50% 50% 30% 30% treset scl sda reset* start ack or read cycle outx 50% led off t buf t su:sta t low t high 1/f scl t hd:sta t su:dat tr tf t hd:dat t vd:dat t vd:ack t su:sto sda scl protocol start condition (s) bit 7 msb (a7) bit 6 (a7) bit 7 (d1) bit 8 (d0) acknowledge (a) stop condition (p) tsp thd:sta tsu:sta tsu:sto tsu:dat thigh thd:sta thd:dat t low t buf tr tf sr p p s sda scl fig.3 definition of logic signal timing technical note 6/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. logic function explaining 1. slave address led driver bd7844aefv is a slave device. the master devi ce outputs the transmission clock and the transmission data, and bd7844aefv who is the slave returns the acknowledgemen t. the master device transmits the slave address of bd7844aefv following the start condition. afterwards, bd7844aefv can be controlled in the command by transmitting the register address and the register data co ntinuously, and doing the transmission completion under the stop condition. fig. 4 shows basic format (i 2 c) of the control command of bd7844aefv. s=start, p=stop fig. 4 basic format of control command i 2 c bd7844aefv has three kinds of slave addresses (for usually, for all calls, and for software reset). 1-1. usual slave address fig. 5 shows the slave address of bd7844aefv. because an internal pull-up resistor has not placed to the address terminal (a[3:0]) that can be selected with hardware to save power consumption, it is necessary to connect them with high ( =vdd ) or low ( =gnd ). 1 0 1 a3 a2 a1 a0 r/w fig. 5 usual slave address the last rw bit of the slave address byte defines the executed operation. reading is selected when setting it to logic 1, and writing is selected when setting it to logic 0. fixed a3 a2 a1 a0 r/w function 101 0 0 0 0 r/w usual 1 101 0 0 0 1 r/w usual 2 101 0 0 1 0 r/w usual 3 101 0 0 1 1 r/w usual 4 101 0 1 0 0 r/w usual 5 101 0 1 0 1 r/w usual 6 101 0 1 1 0 r/w usual 7 101 0 1 1 1 r/w usual 8 101 1 0 0 0 r/w all call 101 1 0 0 1 r/w usual 9 101 1 0 1 0 r/w usual 10 101 1 0 1 1 0 software reset 101 1 1 0 0 r/w usual 11 101 1 1 0 1 r/w usual 12 101 1 1 1 0 r/w usual 13 101 1 1 1 1 r/w usual 14 table 1. slave address slave address fixed it is optional with the address terminal s slave address register address register data p a a a ?0? = write from master to slave from slave to maste r s p a a a s a slave address register address slave address register data r/w ?0? = write ?1? = read r/w r/w master transmits data master receives data technical note 7/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. 1-2. slave address for all call [1011000] is used as a slave address for all call. (fig. 6) 1 0 1 1 0 0 0 r/w fig. 6 slave address for all call all bd7844aefv on the bus can control in the command at the same time by the slave address for all call. it enters the state that can respond to all call when power supply (vdd) is turned on. it can be selected not to respond when the all call bit of mode1 register is set to logic ?0?. because the register data is returned from all bd7844aefv on the bus when the last r/w bi t of the slave address byte is set to logic "1" (read) when the slave address for all calls is used, the master c annot read the register data of specific bd7844aefv. please use a usual slave address to read the register data of specific bd7844aefv. 1-3. slave address for software reset [1011011] is used as a slave address for software reset. (fig. 7) 1 0 1 1 0 1 1 0 fig. 7 slave address for software reset all bd7844aefv on the bus can be reset at the same time by the slave address for software reset. it is necessary to use the slave address for software rese t with r/w=0. bd7844aefv doesn't recognize software reset for r/w=1. please re fer to "3-2. software reset" for details. take care: because slave address [1011011] for softwa re reset is a reserved address, it is not possible to use it as a usual slave address. take care: slave address [1011000] for all calls must not use as a usual slave address because it becomes enable when power supply (vdd) is turned on. slave address for all call unavailable in address terminal slave address for software reset unavailable in address terminal r/w technical note 8/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. 2. register address after completing the acknowledgement of the slave address, the master device transmits the register address to bd7844aefv. fig. 8 shows the register address. fig. 8 register address the auto increment option is specified for msb 3bit.the address of the register that wants to be controlled is specified for lsb 5bit. sending register data continuously with the auto increment option in the three high rank bits can continuously set each brightness control register. (mode1 re gister cannot be set by the auto increment option.) the register of bd7844aefv is shown in table 2 and the auto increment option is shown in table 3 register address(hex) register name initial value after reset access function 00 pwm0 [7:0] 00h r/w brightness control (256steps) out0 01 pwm1 [7:0] 00h r/w brightness control (256steps) out1 02 pwm2 [7:0] 00h r/w brightness control (256steps) out2 03 pwm3 [7:0] 00h r/w brightness control (256steps) out3 04 pwm4 [7:0] 00h r/w brightness control (256steps) out4 05 pwm5 [7:0] 00h r/w brightness control (256steps) out5 06 pwm6 [7:0] 00h r/w brightness control (256steps) out6 07 pwm7 [7:0] 00h r/w brightness control (256steps) out7 08 pwm8 [7:0] 00h r/w brightness control (256steps) out8 09 pwm9 [7:0] 00h r/w brightness control (256steps) out9 0a pwm10 [7:0] 00h r/w brightness control (256steps) out10 0b pwm11 [7:0] 00h r/w brightness control (256steps) out11 0c pwm12 [7:0] 00h r/w brightness control (256steps) out12 0d pwm13 [7:0] 00h r/w brightness control (256steps) out13 0e pwm14 [7:0] 00h r/w brightness control (256steps) out14 0f pwm15 [7:0] 00h r/w brightness control (256steps) out15 1a* mode1 [7:0] 03h r/w mode 1 setting *mode1 register cannot be set by the auto increment option. table 2. register ai2 ai1 ai0 function 0 0 0 auto increment none 0 0 1 address auto increment (+1) for brightness control register pwm0~15only. 0 1 0 prohibited 0 1 1 1 0 0 1 0 1 1 1 0 1 1 1 table 3. auto increment option auto increment option register address ai 2 ai 1 ai 0 ra 4 ra 3 ra 2 ra 1 ra 0 technical note 9/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. 2-1. pwm0 ~ pwm15 register data the brightness of output terminal out0 ~ out15 is set by the register data of pwm0(address:00h) ~ pwm15(address:0fh). the pwm brightness control in 256 steps is possible from 00h (complete off) to ffh (complete on). 2-2. mode1 registers data the operation mode of bd7844aefv is set accordi ng to mode1 register (address: 1ah) data. table 4 shows the allocation of the bit of mode1 register data. bit bit name access value function 7 limitreset r/w 0 * device limitation software reset : off 1 device limitation software reset : on 6 protect0 r/w 0 please write ?0?. it is not recognized as mode1 register data at ?1?. 5 reservation r/w 0 * please write ?0? 1 prohibited 4 pwmslow r/w 0 * pwm period is 60khz 1 pwm period is 2khz 3 reservation r/w 0 * please write ?0?. 1 prohibited 2 reservation r/w 0 * please write ?0?. 1 prohibited 1 protect1 r/w 1 please write ?1?. it is not recognized as mode1 register data at ?0?. 0 allcall r/w 0 it doesn't respond to the slave address for all call. 1 * it responds to the slave address for all call. *default value after reset table 4. mode1 register (address: 1ah) data mode1 register data cannot be set by the auto increment option. please set it alone by the following format. in the correct execution, there should not be device that monopolizes the bus. 2-3. mode1 register data setting procedure 1. the start condition is sent by the i 2 c bus master. 2. the slave address of bd7844aefv that wants to be set by mode1 register is sent by the master. 3. when the slave address is sent and recognized, the mast er sends mode1 register address [00011010] (1ah). it is recognized only when lsb 5bit are [11010] and th e auto increment option in msb 3bit are [000]. 4. when mode1 register address is sent and recogn ized, the master sends mode1 register data. it recognizes it as data only when the data confirmation bit (bit 6=0 and bit1=1) is all correct. 5. when correct mode1 register data is sent and recognized, the master se nds the stop condition to end mode1 setting command. afterwards, limitreset, pw mslow, and allcall become effective. technical note 10/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. 3. reset bd7844aefv has four kinds of resets (power on, software, device limitation software, external,). 3-1. power-on reset when the power supply is forced to vdd, internal power-on reset maintains bd7844aefv in the state of reset until vdd reaches vpor. reset is liberated at vpor, and the register and the i 2 c bus state machine of bd7844aefv are initialized in the state of default. 3-2. software reset all bd7844aefv on the i 2 c bus can be reset in the power supply on condition by software reset. in the correct execution, there should not be dev ice that monopolizes the bus. soft ware reset is defined as follows. 1. the start condition is sent by the i 2 c bus master. 2. the slave address for software reset that the r/ w bit is set to "0" (write) is sent by the i 2 c bus master. 3. only when it is recognized that the slave address fo r software reset is [10110110] (b6h), bd7844aefv executes reset. when the r/w bit is set to logi c "1" (read), it is not recognized. ev en r/w bit is logic "0" and "1", the acknowledgement is returned. but it is only logic "0" that reset is recognized. 4. when the slave address for software reset is sent and re cognized, the master sends two bytes with two specific values. byte 1= a5h: bd7844aefv recognizes only this value. when byte 1 is not a5h, bd7844aefv doesn't recognize it. byte 2= 5ah: bd7844aefv recognizes only this value. when byte 2 is not 5ah, bd7844aefv doesn't recognize it. 5. the master sends the stop condit ion to terminate the software reset command when correct two bytes are sent and it is recognized correctly. afterwards, bd7844aefv is reset in the power supply on condition. 3-3. device limitation software reset only bd7844aefv selected in the slave address can be reset in the power supply on condition by making the limitreset bit of the mode1 register logic 1. 3-4. external reset external reset is executed by maintaining resetb terminal for the period of minimum tw. the register and the i 2 c bus state machine of bd7844aefv is maintained in the state of default until becoming resetb input becomes ?h? level. take care: please connect the resetb terminal with ?h?, when you do not use an active connection. 4. i2csel function it can be set that the sda terminal accepts only the input by connecting the i2csel terminal with ?l?. take care : because the acknowledge and reading data of t he register is not returned to the master device, control software for i 2 c cannot be used as it is. technical note 11/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. notes for use 1. absolute ma ximum ratings an excess in the absolute maximum ratings, such as supply voltage, temperature range of operating conditions, etc., can break down devices, thus making impossible to identify breaking mode such as a short circuit or an open circuit. if any special mode exceeding the absolute maximum ratings is assumed, consideration should be given to take physical safety measures including the use of fuses, etc. 2. power supply and ground line design pcb pattern to provide low impedance for the wiring between the power supply and the ground lines. pay attention to the interference by common impedance of layout pattern when ther e are plural power supplies and ground lines. especially, when there are ground pattern for small signal and ground pattern for large current included the external circuits, please separate each ground pattern. furthe rmore, for all power supply pins to ics, mount a capacitor between the power supply and the ground pin. at the same time , in order to use a capacitor, thoroughly check to be sure the characteristics of the capacitor to be used present no probl em including the occurrence of capacity dropout at a low temperature, thus determining the constant. 3. ground voltage make setting of the potential of the ground pin so that it will be maintai ned at the minimum in any operating state. furthermore, check to be sure no pins are at a potential lo wer than the ground voltage incl uding an actual electric transient. 4. short circuit between pins and erroneous mounting in order to mount ics on a set pcb, pay thorough attention to the direction and offset of the ics. erroneous mounting can break down the ics. furthermore, if a short circuit occurs due to foreign matters entering between pins or between the pin and the power supply or the ground pin, the ics can break down. 5. operation in strong electromagnetic field be noted that using ics in the strong elec tromagnetic field can malfunction them. 6. input pins in terms of the construction of ic, parasitic elements are in evitably formed in relation to potential. the operation of the parasitic element can cause interference with circuit operati on, thus resulting in a malfunction and then breakdown of the input pin. therefore, pay thorough atte ntion not to handle the input pins, such as to apply to the input pins a voltage lower than the ground respectively, so that any parasitic elem ent will operate. furthermore, do not apply a voltage to the input pins when no power supply voltage is applied to the ic . in addition, even if the power supply voltage is applied, apply to the input pins a voltage lower than the power supply voltage or within the guaranteed value of electrical characteristics. 7. external capacitor in order to use a ceramic capacitor as the external capaci tor, determine the constant wi th consideration given to a degradation in the nominal capacitance due to dc bias and c hanges in the capacitance due to temperature, etc. 8. thermal shutdown circuit (tsd) this lsi builds in a thermal shutdown (tsd) circuit. when junction temperatures become detection temperature or higher, the thermal shutdown circuit operates and turns a swit ch off. the thermal shutdown circuit, which is aimed at isolating the lsi from thermal runaway as much as possibl e, is not aimed at the prot ection or guarantee of the lsi. therefore, do not continuously use t he lsi with this circuit operating or use the lsi assuming its operation. 9. thermal design perform thermal design in which there ar e adequate margins by taking into account the permissible dissipation (pd) in actual states of use. 10. about the pin for the test, the un-use pin prevent a problem from being in the pin for the test and the un-use pin under the state of ac tual use. please refer to a function manual and an application notebook. and, as for the pin that doesn't specially hav e an explanation, ask our company person in charge. 11. about the rush current for ics with more than one power supply, it is possible that rush current may flow instantaneously due to the internal powering sequence and delays. therefore, give special cons ideration to power coupling capacitance, power wiring, width of ground wiring, and routing of wiring. 12. about the function description or application note or more. the function description and the applicati on notebook are the design materials to design a set. so, the contents of the materials aren't always guaranteed. please design applicat ion by having fully examination and evaluation include the external elements. technical note 12/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. power dissipation (on the rohm?s standard board) fig. 9 power dissipation 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 0 25 50 75 100 125 150 ta power dissipation pd w) 1.45w technical note 13/13 bd7844aefv www.rohm.com 2011.07 - rev. a ? 2011 rohm co., ltd. all rights reserved. ordering part number b d 7 8 4 4 a e f v - e 2 part no. part no. package efv:htssop-b28 packaging and forming specification e2: embossed tape and reel ? order quantity needs to be multiple of the minimum quantity. r1120 a www.rohm.com ? 2011 rohm co., ltd. all rights reserved. notice rohm customer support system http://www.rohm.com/contact/ thank you for your accessing to rohm product informations. more detail product informations and catalogs are available, please contact us. notes no copying or reproduction of this document, in part or in whole, is permitted without the consent of rohm co.,ltd. the content specied herein is subject to change for improvement without notice. the content specied herein is for the purpose of introducing rohm's products (hereinafter "products"). if you wish to use any such product, please be sure to refer to the specications, which can be obtained from rohm upon request. examples of application circuits, circuit constants and any other information contained herein illustrate the standard usage and operations of the products. the peripheral conditions must be taken into account when designing circuits for mass production. great care was taken in ensuring the accuracy of the information specied in this document. however, should you incur any damage arising from any inaccuracy or misprint of such information, rohm shall bear no responsibility for such damage. the technical information specied herein is intended only to show the typical functions of and examples of application circuits for the produc ts. rohm does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by rohm and other parties. rohm shall bear no responsibility whatsoever for any dispute arising from the use of such technical information. the products specied in this document are intended to be used with general-use electronic equipment or devices (such as audio visual equipment, ofce-automation equipment, commu- nication devices, electronic appliances and amusement devices). the products specied in this document are not designed to be radiation tolerant. while rohm always makes efforts to enhance the quality and reliability of its products, a product may fail or malfunction for a variety of reasons. please be sure to implement in your equipment using the products safety measures to guard against the possibility of physical injury, re or any other damage caused in the event of the failure of any product, such as derating, redundancy, re control and fail-safe designs. rohm shall bear no responsibility whatsoever for your use of any product outside of the prescribed scope or not in accordance with the instruction manual. the products are not designed or manufactured to be used with any equipment, device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk of human injury (such as a medical instrument, transportation equipment, aerospace machinery, nuclear-reactor controller, fuel- controller or other safety device). rohm shall bear no responsibility in any way for use of any of the products for the above special purposes. if a product is intended to be used for any such special purpose, please contact a rohm sales representative before purchasing. if you intend to export or ship overseas any product or technology specied herein that may be controlled under the foreign exchange and the foreign trade law, you will be required to obtain a license or permit under the law. |
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