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1 ? fn8193.2 caution: these devices are sensitive to electrosta tic discharge; follow proper ic handling procedures. 1-888-intersil or 1-888-468-3774 | intersil (and design) is a registered trademark of intersil americas inc. xdcp is a trademark of intersil americas inc. copyri ght intersil americas inc. 2005-2006. all rights reserved all other trademarks mentioned are the property of their respective owners. x9410 low noise/low power/spi bus dual digitally contro lled potentiometer (xdcp?) features ? two potentiometers per package ? spi serial interface ? register oriented format - direct read/write/tra nsfer wiper positions - store as many as four positions per potentiometer ? power supplies -v cc = 2.7v to 5.5v - v+ = 2.7v to 5.5v - v- = -2.7v to -5.5v ? low power cmos - standby current < 1a - high reliability - endurance - 100,000 data changes per bit per register - register data retention - 100 years ? 8-bytes of nonvol atile eeprom memory ?10k ? resistor arrays ? resolution: 64 taps each pot ? 24 ld soic, 24 ld tssop, and 24 ld plastic dip packages ? pb-free plus anneal available (rohs compliant) description the x9410 integrates two digitally controlled potentiometers (xdcps) on a monolithic cmos integrated circuit. the digitally controlled potentiometer is implemented using 63 resistive elements in a series array. between each element are tap points connected to the wiper terminal through switches. the position of the wiper on the array is controlled by the user through the spi serial bus interface. each potentiometer has associated with it a volatile wiper counter register (wcr) and four nonvolatile data registers (dr0:dr3) that can be directly writte n to and read by the user. the contents of the wcr controls the position of the wiper on the resistor array through the switches. power-up recalls the cont ents of dr0 to the wcr. the xdcp can be used as a three-terminal potentiometer or as a two-terminal variable resistor in a wide variety of applications including control, parameter adjustments, and signal processing. block diagram r0 r1 r2 r3 wiper counter register (wcr) resistor array pot1 v h1 /r h1 v l1 /r l1 r0 r1 r2 r3 wiper counter register (wcr) interface and control circuitry cs sck a0 a1 v h0 /r h0 v l0 /r l0 data 8 v w0 /r w0 v w1 /r w1 so si hold wp pot 0 v cc v ss v+ v- pot 1 data sheet october 12, 2006
2 fn8193.2 october 12, 2006 pin descriptions host interface pins serial output (so) so is a push/pull serial data output pin. during a read cycle, data is shifted out on this pin. data is clocked out by the falling edge of the serial clock. serial input si is the serial data input pin. all opcodes, byte addresses and data to be written to the pots and pot registers are input on this pin. data is latched by the rising edge of the serial clock. serial clock (sck) the sck input is used to clock data into and out of the x9410. chip select (cs ) when cs is high, the x9410 is deselected and the so pin is at high impedance, and (unless an internal write cycle is underway) the device will be in the standby state. cs low enables the x9410, placing it in the active power mode. it should be noted that after a power-up, a high to low transition on cs is required prior to the start of any operation. hold (hold ) hold is used in conjunction with the cs pin to select the device. once the part is selected and a serial sequence is underway, hold may be used to pause the serial communication with the controller without resetting the serial sequence. to pause, hold must be brought low while sck is low. to resume communication, hold is brought high, again while sck is low. if the pause feature is not used, hold should be held high at all times. device address (a 0 - a 1 ) the address inputs are used to set the least significant 2 bits of the 8-bit slave address. a match in the slave address serial data stream must be made with the address input in order to initiate communication with the x9410. a maximum of 4 devices may occupy the spi serial bus. ordering information part number part marking v cc limits (v) potentiometer organization (k ? ) temp range (c) package pkg. dwg. # x9410ys24i x9410ys i 5 10% 2.5 -40 to 85 24 ld soic (300 mil) m24.3 x9410ys24iz (note) x9410ys zi -40 to 85 24 ld soic (300 mil) (pb-free) mdp0027 x9410wp24i x9410wp i 10 -40 to 85 24 ld pdip e24.6 x9410ws24i* x9410ws i -40 to 85 24 ld soic (300 mil) m24.3 x9410ws24iz* (note) x9410ws zi -40 to 85 24 ld soic (300 mil) (pb-free) mdp0027 x9410wv24i* x9410wv i -40 to 85 24 ld tssop (4.4mm) mdp0044 x9410wv24iz* (note) x9410wv zi -40 to 85 24 ld tssop (4.4mm) (pb-free) mdp0044 x9410ys24i-2.7 x9410ys g 2.7 to 5.5 2.5 -40 to 85 24 ld soic (300 mil) m24.3 x9410ys24iz-2.7 (note) x9410ys zg -40 to 85 24 ld soic (300 mil) (pb-free) mdp0027 x9410wp24i-2.7 x9410wp g 10 -40 to 85 24 ld pdip e24.6 x9410ws24i-2.7* x9410ws g -40 to 85 24 ld soic (300 mil) m24.3 x9410ws24iz-2.7* (note) x9410ws zg -40 to 85 24 ld soic (300 mil) (pb-free) mdp0027 x9410wv24-2.7* x9410wv f 0 to 70 24 ld tssop (4.4mm) mdp0044 x9410wv24z-2.7* (note) x9410wv zf 0 to 70 24 ld tssop (4.4mm) (pb-free) mdp0044 x9410wv24i-2.7* x9410wv g -40 to 85 24 ld tssop (4.4mm) mdp0044 x9410wv24iz-2.7* (note) x9410wv zg -40 to 85 24 ld tssop (4.4mm) (pb-free) mdp0044 *add "t1" suffix for tape and reel. note: intersil pb-free plus anneal products employ special pb-free material sets; mo lding compounds/die attach materials and 100 % matte tin plate termination finish, which are rohs compliant and compatible with both snpb and pb-free soldering operations. intersil pb-free p roducts are msl classified at pb-free peak reflow temper atures that meet or exceed the pb-free requirements of ipc/jedec j std-020. x9410
3 fn8193.2 october 12, 2006 potentiometer pins v h /r h (v h0 /r h0 - v h1 /r h1 ), v l /r l (v l0 /r l0 - v l1 /r l1 ) the v h /r h and v l /r l inputs are equivale nt to the terminal connections on either end of a mechanical potentiometer. v w /r w (v w0 /r w0 - v w1 /r w1 ) the wiper outputs are equivalent to the wiper output of a mechanical potentiometer. hardware write protect input (wp ) the wp pin when low prevents nonvolatile writes to the data registers. analog supplies (v+, v-) the analog supplies v+, v- are the supply voltages for the xdcp analog section. pin configuration pin names device description the x9410 is a highly integrated microcircuit incorporating two resistor arrays and their associated registers and counters and the serial interface logic providing direct communication between the host and the xdcp potentiometers. serial interface the x9410 supports the spi interface hardware conventions. the device is accessed via the si input with data clocked in on the rising sck. cs must be low and the hold and wp pins must be high during the entire operation. the so and si pins can be connected together, since they have three state outpu ts. this can help to reduce system pin count. array description the x9410 is comprised of two resistor arrays. each array contains 63 discrete resistive segments that are connected in series. the physical ends of each array are equivalent to the fixe d terminals of a mechanical potentiometer (v h /r h and v l /r l inputs). at both ends of each arra y and between each resistor segment is a cmos switch connected to the wiper (v w /r w ) output. within each individual array only one switch may be turned on at a time. these switches are cont rolled by a wiper counter register (wcr). the six bits of the wcr are decoded to select, and enable, one of sixty-four switches. v cc v l0 /r l0 v h0 /r h0 wp si a 1 1 2 3 4 5 6 7 8 9 10 24 23 22 21 20 19 18 17 16 15 v+ a 0 so hold sck dip/soic x9410 v ss v w0 /r w0 14 13 11 12 cs v l1 /r l1 v h1 /r h1 v w1 /r w1 v- si a 1 v l1 /r l1 1 2 3 4 5 6 7 8 9 10 24 23 22 21 20 19 18 17 16 15 wp cs v w0 /r w0 v h0 /r h0 v l0 /r l0 v cc tssop x9410 hold v h1 /r h1 14 13 11 12 v w1 /r w1 sck a 0 so v ss nc nc nc nc nc nc nc nc nc v+ v- nc nc nc symbol description sck serial clock s i , s o serial data a 0 - a 1 device address v h0 /r h0 - v h1 /r h1 , v l0 /r l0 - v l1 /r l1 potentiometer pins (terminal equivalent) v w0 /r w0 - v w1 /r w1 potentiometer pin (wiper equivalent) wp hardware write protection v+,v- analog supplies v cc system supply voltage v ss system ground nc no connection x9410
4 fn8193.2 october 12, 2006 wiper counter register (wcr) the x9410 contains two wiper counter registers, one for each xdcp potentiometer. the wcr is equivalent to a serial-in, parallel-out register/counter with its outputs decoded to select one of sixty-four switches along its resistor array. the contents of the wcr can be altered in four ways: it ma y be written directly by the host via the write wiper counter register instruction (serial load); it may be writt en indirectly by transferring the contents of one of four associated data registers via the xfr data register or global xfr data register instructions (parallel load) ; it can be modified one step at a time by the increment/ decrement instruction. finally, it is loaded with the contents of its data register zero (dr0) upon power-up. the wiper counter register is a volatile register; that is, its contents are lost when the x9410 is powered- down. although the register is automatically loaded with the value in dr0 upon power-up, this may be different from the value present at power-down. data registers each potentiometer has four 6-bit nonvolatile data registers. these can be read or written directly by the host. data can also be transferred between any of the four data registers and the associated wiper counter register. all operations changing data in one of the data registers is a nonvol atile operation and will take a maximum of 10ms. if the application does not require storage of multiple settings for the potentiomete r, the data registers can be used as regular memory locations for system parameters or user preference data. data register detail figure 1. detailed pote ntiometer block diagram (msb) (lsb) d5 d4 d3 d2 d1 d0 nv nv nv nv nv nv serial data path from interface circuitry register 0 register 1 register 2 register 3 serial bus input parallel bus input wiper counter register inc/dec logic up/dn clk modified scl up/dn v h /r h v l /r l v w /r w if wcr = 00[h] then v w /r w = v l /r l if wcr = 3f[h] then v w /r w = v h /r h 8 6 c o u n t e r d e c o d e (wcr) (one of two arrays) x9410
5 fn8193.2 october 12, 2006 write in process the contents of the data registers are saved to nonvolatile memory when the cs pin goes from low to high after a complete write sequence is received by the device. the progress of this internal write operation can be monitored by a write in process bit (wip). the wip bit is read with a read status command. instructions identification (id) byte the first byte sent to the x9410 from the host, following a cs going high to low, is called the identification byte. the most significant four bits of the slave address are a device type identifier, for the x9410 this is fixed as 0101[b] (refer to figure 2). the two least significant bits in the id byte select one of four devices on the bus. the physical device address is defined by the state of the a 0 - a 1 input pins. the x9410 compares the serial data stream with the address input state; a successful compare of both address bits is required for the x9410 to successfully continue the command sequence. the a 0 - a 1 inputs can be actively driven by cmos input signals or tied to v cc or v ss . the remaining two bits in the id byte must be set to 0. figure 2. identification byte format instruction byte the next byte sent to the x9410 contains the instruction and register pointer information. the four most significant bits are the instruction. the next four bits point to one of the two pots and when applicable they point to one of four associated registers. the format is shown below in figure 3. figure 3. instruction byte format the four high order bits of the instruction byte specify the operation. the next two bits (r 1 and r 0 ) select one of the four registers that is to be acted upon when a register oriented instruction is issued. the last bit (p 0 ) selects which one of the two potentiometers is to be affected by the instruction. four of the ten instructions are two bytes in length and end with the transmission of the instruction byte. these instructions are: ? xfr data register to wiper counter register ?this transfers the contents of on e specified data register to the associated wiper counter register. ? xfr wiper counter register to data register ?this transfers the contents of the specified wiper counter register to the specified associated data register. ? global xfr data register to counter register ?this transfers the contents of both specified data registers to the associated wiper counter registers. ? global xfr wiper counter register to data register ?this transfers the contents of both wiper counter registers to the specified associated data registers. the basic sequence of the two byte instructions is illustrated in figu re 4. these two-byte instructions exchange data between the wcr and one of the data registers. a transfer from a data register to a wcr is essentially a write to a stat ic ram, with the static ram controlling the wiper position. the response of the wiper to this action will be delayed by t wrl . a transfer from the wcr (current wiper position), to a data register is a write to nonvolatile memory and takes a minimum of t wr to complete. the transfer can occur between one of the two pot entiometers and one of its associated registers; or it may occur globally, where the transfer occurs between both potentiometers and one associated register. 1 00 0 0 a1 a0 device type identifier device address 1 i1 i2 i3 i0 r1 r0 0 p0 pot select register select instructions x9410
6 fn8193.2 october 12, 2006 five instructions require a three-byte sequence to complete. these instructions transfer data between the host and the x9410; either between the host and one of the data registers or directly between the host and the wiper counter register. these instructions are: ? read wiper counter register ?read the current wiper position of the selected pot, ? write wiper counter register ?change current wiper position of the selected pot, ? read data register ?read the contents of the selected data register; ? write data register ?write a new value to the selected data register. ? read status ?this command returns the contents of the wip bit which indica tes if the internal write cycle is in progress. the sequence of these operati ons is shown in figure 5 and figure 6. the final command is increment/decrement. it is different from the other commands because it?s length is indeterminate. once t he command is issued, the master can clock the selected wiper up and/or down in one resistor segment steps, thereby providing a fine tuning capability to the host . for each sck clock pulse (t high ) while si is high, the selected wiper will move one resistor segment towards the v h /r h terminal. similarly, for each sck clock pulse while si is low, the selected wiper will move one resistor segment towards the v l /r l terminal. a detailed illustration of the sequence and timing for this operation are shown in figure 7 and figure 8. figure 4. two-byte instruction sequence figure 5. three-byte instruction sequence (write) figure 6. three-byte instruction sequence (read) 010100a1a0 i3 i2 i1 i0 r1 r0 0 p0 sck si cs 0 1 0 1 a1 a0 i3 i2 i1 i0 r1 r0 0 p0 scl si 0 0 d5 d4 d3 d2 d1 d0 cs 00 0 1 0 1 a1 a0 i3 i2 i1 i0 r1 r0 0 p0 scl si cs 00 s0 0 0 d5 d4 d3 d2 d1 d0 don?t care x9410
7 fn8193.2 october 12, 2006 figure 7. increment/decrement instruction sequence figure 8. increment/decrement timing limits table 1. instruction set 010100a1a0 i3 i2 i1 i0 0 0 p0 sck si i n c 1 i n c 2 i n c n d e c 1 d e c n 0 cs instruction instruction set operation i 3 i 2 i 1 i 0 r 1 r 0 p 1 p 0 read wiper counter register 1 0 01000p 0 read the contents of the wiper counter register pointed to by p 0 write wiper counter register1010000p 0 write new value to the wiper counter register pointed to by p 0 read data register 1 0 1 1 r 1 r 0 0p 0 read the contents of the data register pointed to by p 0 and r 1 - r 0 write data register 1 1 0 0 r 1 r 0 0p 0 write new value to the data register pointed to by p 0 and r 1 - r 0 xfr data register to wiper counter register 1101r 1 r 0 0p 0 transfer the contents of the data register pointed to by r 1 - r 0 to the wiper counter register pointed to by p 0 xfr wiper counter register to data register 1110r 1 r 0 0p 0 transfer the contents of the wiper counter register pointed to by p 0 to the register pointed to by r 1 - r 0 global xfr data register to wiper counter register 0001r 1 r 0 0 0 transfer the contents of the data registers pointed to by r 1 - r 0 of both pots to their respective wiper counter register global xfr wiper counter register to data register 1000r 1 r 0 0 0 transfer the contents of all wiper counter registers to their respective data registers pointed to by r 1 - r 0 of both pots increment/decrement wiper counter register 0010000p 0 enable increment/decrement of the wiper counter register pointed to by p 0 read status (wip bit) 0 1 010001r ead the status of the internal write cycle, by checking the wip bit. sck si v w /r w inc/dec cmd issued t wrid voltage out x9410
8 fn8193.2 october 12, 2006 instruction format notes: (1) ?a1 ~ a0?: stands for the device addresses sent by the master. (2) wpx refers to wiper position data in the counter register (2) ?i?: stands for the increment operation, si held high during active sck phase (high). (3) ?d?: stands for the decrement operation, si held low during active sck phase (high). read wiper counter register (wcr) write wiper counter register (wcr) read data register (dr) write data register(dr) transfer data register (dr) to wiper counter register (wcr) transfer wiper counter register (wcr) to data register (dr) cs falling edge device type identifier device addresses instruction opcode wcr addresses wiper position (sent by x9410 on so) cs rising edge 010100 a 1 a 0 1001000 p 0 00 w p 5 w p 4 w p 3 w p 2 w p 1 w p 0 cs falling edge device type identifier device addresses instruction opcode wcr addresses data byte (sent by host on si) cs rising edge 010100 a 1 a 0 1010000 p 0 00 w p 5 w p 4 w p 3 w p 2 w p 1 w p 0 cs falling edge device type identifier device addresses instruction opcode dr and wcr addresses data byte (sent by x9410 on so) cs rising edge 010100 a 1 a 0 1011 r 1 r 0 0 p 0 00 w p 5 w p 4 w p 3 w p 2 w p 1 w p 0 cs falling edge device type identifier device addresses instruction opcode dr and wcr addresses data byte (sent by host on si) cs rising edge high-voltage write cycle 010100 a 1 a 0 1100 r 1 r 0 0 p 0 00 w p 5 w p 4 w p 3 w p 2 w p 1 w p 0 cs falling edge device type identifier device addresses instruction opcode dr and wcr addresses cs rising edge 010100 a 1 a 0 1101 r 1 r 0 0 p 0 cs falling edge device type identifier device addresses instruction opcode dr and wcr addresses cs rising edge high-voltage write cycle 010100 d a 1 d a 0 1110 r 1 r 0 0 p 0 x9410
9 fn8193.2 october 12, 2006 increment/decrement wiper counter register (wcr) global transfer data register (dr) to wiper counter register (wcr) global transfer wiper counter register (wcr) to data register (dr) read status cs falling edge device type identifier device addresses instruction opcode wcr addresses increment/decrement (sent by master on sda) cs rising edge 010100 a 1 a 0 0010xx0 p 0 i/ d i/ d .... i/ d i/ d cs falling edge device type identifier device addresses instruction opcode dr addresses cs rising edge 010100 a 1 a 0 0001 r 1 r 0 00 cs falling edge device type identifier device addresses instruction opcode dr addresses cs rising edge high-voltage write cycle 010100 a 1 a 0 1000 r 1 r 0 00 cs falling edge device type identifier device addresses instruction opcode wiper addresses data byte (sent by x9410 on so) cs rising edge 010100 a 1 a 0 010100010000000 w i p x9410
10 fn8193.2 october 12, 2006 absolute maximum ratings temperature under bias .................... -65c to +135c storage temperature ......................... -65 c to +150 c voltage on sck, scl or any address input with respect to v ss ......................... -1v to +7v voltage on v+ (referenced to v ss ) ........................ 10v voltage on v- (referenced to v ss ) ........................-10v (v+) - (v-) .............................................................. 12v any v h .....................................................................v+ any v l ......................................................................v- lead temperature (soldering, 10s) .................. +300c i w (10s) ............................................................12ma comment stresses above those liste d under ?absolute maximum ratings? may cause permanent damage to the device. this is a stress rating only; functional operation of the device (at these or any ot her conditions above those listed in the operational sections of this specification) is not implied. exposure to absolute maximum rating conditions for extended per iods may affect device reliability. analog characteristics (over recommended operating condi tions unless otherwise stated.) notes: (1) absolute linearity is utilized to determine actual wiper voltage versus expec ted voltage as determined by wiper positi on when used as a potentiometer. (2) relative linearity is utilized to deter mine the actual change in voltage between two su ccessive tap positions when used as a potentiometer. it is a measure of the error in step size. (3) mi = rtot/63 or (r h - r l )/63, single pot (4) individual array resolution symbol parameter limits test conditions min. typ. max. unit r total end to end resistance 20 % power rating 50 mw +25 c, each pot i w wiper current 6 ma r w wiper resistance 150 250 ? wiper current = 1ma, v cc =3v 40 100 ? wiper current = 1ma, v cc =5v vv+ voltage on v+ pin x9410 +4.5 +5.5 v x9410-2.7 +2.7 +5.5 vv- voltage on v- pin x9410 -5.5 -4.5 v x9410-2.7 -5.5 -2.7 v term voltage on any v h /r h or v l /r l pin v- v+ v noise -120 dbv ref: 1khz resolution (4) 1.6 % absolute linearity (1) 1 mi (3) r w(n)(actual) - r w(n)(expected) relative linearity (2) 0.2 mi (3) r w(n + 1) - [r w(n) + mi ] temperature coefficient of r total 300 ppm/ c ratiometric temp. coefficient 20 ppm/c c h /c l /c w potentiometer capacitances 10/10/25 pf see circuit #3 recommended operating conditions temp min. max. commercial 0 c+70 c industrial -40 c+85 c device supply voltage (v cc ) limits x9410 5v 10% x9410-2.7 2.7v to 5.5v x9410
11 fn8193.2 october 12, 2006 d.c. operating characteristics (over the recommended operating cond itions unless otherwise specified.) endurance and data retention capacitance power-up timing power-up and power-down there are no restrictions on the power-up or power- down sequencing of the bias supplies v cc , v+, and v- provided that all three supplies reach their final values within 1msec of each other. ho wever, at all times, the voltages on the potentiometer pins must be less than v+ and more than v-. the recall of the wiper position from nonvolatile memory is not in effect until all supplies reach their final value. equivalent a.c. load circuit symbol parameter limits test conditions min. typ. max. units i cc1 v cc supply current (active) 400 a f sck = 2mhz, so = open, other inputs = v ss i cc2 v cc supply current (nonvolatile write) 1maf sck = 2mhz, so = open, other inputs = v ss i sb v cc current (standby) 1 a sck = si = v ss , addr. = v ss i li input leakage current 10 a v in = v ss to v cc i lo output leakage current 10 a v out = v ss to v cc v ih input high voltage v cc x 0.7 v cc + 0.5 v v il input low voltage -0.5 v cc x 0.1 v v ol output low voltage 0.4 v i ol = 3ma parameter min. unit minimum endurance 100,000 data changes per bit per register data retention 100 years symbol test max. unit test conditions c out (5) output capacitance (so) 8 pf v out = 0v c in (5) input capacitance (a0, a1, si, and sck) 6 pf v in = 0v symbol parameter min. max. unit t pur (6) power-up to initiation of read operation 1 1 ms t puw (6) power-up to initiation of write operation 5 5 ms t r v cc v cc power-up ramp 0.2 50 v/msec 5v 1533 ? 100pf sda output 2.7v 100pf x9410
12 fn8193.2 october 12, 2006 a.c. test conditions notes: (5) this parameter is periodically sampled and not 100% tested (6) t pur and t puw are the delays required from the time the third (last) power supply (v cc , v+ or v-) is stable until the specific instruction ca n be issued. these parameters are periodically sampled and not 100% tested. test circuit #3 spice macro model ac timing i nput pulse levels v cc x 0.1 to v cc x 0.9 input rise and fall times 10ns input and output timing level v cc x 0.5 10pf r h r total c h 25pf c w c l 10pf r w r l symbol parameter min. max. unit f sck ssi/spi clock frequency 2.0 mhz t cyc ssi/spi clock cycle time 500 ns t wh ssi/spi clock high time 200 ns t wl ssi/spi clock low time 200 ns t lead lead time 250 ns t lag lag time 250 ns t su si, sck, hold and cs input setup time 50 ns t h si, sck, hold and cs input hold time 50 ns t ri si, sck, hold and cs input rise time 2 s t fi si, sck, hold and cs input fall time 2 s t dis so output disable time 0 500 ns t v so output valid time 100 ns t ho so output hold time 0 ns t ro so output rise time 50 ns t fo so output fall time 50 ns t hold hold time 400 ns t hsu hold setup time 100 ns t hh hold hold time 100 ns t hz hold low to output in high z 100 ns t lz hold high to output in low z 100 ns t i noise suppression time constant at si, sck, hold and cs inputs 20 ns t cs cs deselect time 2 s t wpasu wp , a0 and a1 setup time 0 ns t wpah wp , a0 and a1 hold time 0 ns x9410
13 fn8193.2 october 12, 2006 high-voltage wr ite cycle timing xdcp timing symbol table timing diagrams input timing symbol parameter typ. max. unit t wr high-voltage write cycle time (store instructions) 5 10 ms symbol parameter min. max. unit t wrpo wiper response time after the third (last) power supply is stable 10 s t wrl wiper response time after instruction issued (all load instructions) 10 s t wrid wiper response time from an active scl/sc k edge (increment/decrement instruction) 450 ns waveform inputs outputs must be steady will be steady may change from low to high will change from low to high may change from high to low will change from high to low don?t care: changes allowed changing: state not known n/a center line is high impedance ... cs sck si so msb lsb high impedance t lead t h t su t fi t cs t lag t cyc t wl ... t ri t wh x9410
14 fn8193.2 october 12, 2006 output timing hold timing xdcp timing (for all load instructions) ... cs sck so si addr msb lsb t dis t ho t v ... ... cs sck so si hold t hsu t hh t lz t hz t hold t ro t fo ... cs sck si msb lsb v w /r w t wrl ... so high impedance x9410
15 fn8193.2 october 12, 2006 xdcp timing (for increment/decrement instruction) write protect and device address pins timing ... cs sck so si addr t wrid high impedance v w /r w ... inc/dec inc/dec ... cs wp a0 a1 t wpasu t wpah (any instruction) x9410
16 fn8193.2 october 12, 2006 applications information basic configurations of electronic potentiometers application circuits v r v w /r w v r i three terminal potentiometer; variable voltage divider two terminal variable resistor; variable current noninverting amplifier voltage regulator offset voltage adjustment comparator with hysteresis + ? v s v o r 2 r 1 v o = (1+r 2 /r 1 )v s r 1 r 2 i adj v o (reg) = 1.25v (1+r 2 /r 1 )+i adj r 2 v o (reg) v in 317 + ? v s v o r 2 r 1 v ul = {r 1 /(r 1 +r 2 )} v o (max) v ll = {r 1 /(r 1 +r 2 )} v o (min) 100k ? 10k ? 10k ? 10k ? -12v +12v tl072 + ? v s v o r 2 r 1 } } x9410
17 fn8193.2 october 12, 2006 application circuits (continued) attenuator filter inverting amplifier equivalent l-r circuit + ? v s v o r 3 r 1 v o = g v s -1/2 g +1/2 g o = 1 + r 2 /r 1 fc = 1/(2 rc) + ? v s v o r 2 r 1 z in = r 2 + s r 2 (r 1 + r 3 ) c 1 = r 2 + s leq (r 1 + r 3 ) >> r 2 + ? v s function generator r 2 r 4 all r s = 10k ? + ? v s r 2 r 1 r c } } v o = g v s g = -r 2 /r 1 r 2 c 1 r 1 r 3 z in + ? r 2 + ? r 1 } } r a r b frequency r 1 , r 2 , c amplitude r a , r b c x9410
18 fn8193.2 october 12, 2006 x9410 dual-in-line plastic packages (pdip) notes: 1. controlling dimensions: inch. in ca se of conflict between english and metric dimensions, the in ch dimensions control. 2. dimensioning and tolerancing per ansi y14.5m - 1982. 3. symbols are defined in the ?mo series symbol list? in section 2.2 of publication no. 95. 4. dimensions a, a1 and l are m easured with the package seated in jedec seating plane gauge gs - 3. 5. d, d1, and e1 dimensions do not include mold flash or protrusions. mold flash or protrusions shal l not exceed 0.010 inch (0.25mm). 6. e and are measured with the leads constrained to be perpendic- ular to datum . 7. e b and e c are measured at the lead tips with the leads unconstrained. e c must be zero or greater. 8. b1 maximum dimensions do not in clude dambar protrusions. dambar protrusions shall not exceed 0.010 inch (0.25mm). 9. n is the maximum number of terminal positions. 10. corner leads (1, n, n/2 and n/2 + 1) for e8.3, e16.3, e18.3, e28.3, e42.6 will have a b1 dimension of 0.030 - 0.045 inch (0.76 - 1.14mm). e a -c- c l e e a c e b e c -b- e1 index 12 3 n/2 n area seating base plane plane -c- d1 b1 b e d d1 a a2 l a1 -a- 0.010 (0.25) c a m bs e24.6 (jedec ms-011-aa issue b) 24 lead dual-in-line plastic package symbol inches millimeters notes min max min max a - 0.250 - 6.35 4 a1 0.015 - 0.39 - 4 a2 0.125 0.195 3.18 4.95 - b 0.014 0.022 0.356 0.558 - b1 0.030 0.070 0.77 1.77 8 c 0.008 0.015 0.204 0.381 - d 1.150 1.290 29.3 32.7 5 d1 0.005 - 0.13 - 5 e 0.600 0.625 15.24 15.87 6 e1 0.485 0.580 12.32 14.73 5 e 0.100 bsc 2.54 bsc - e a 0.600 bsc 15.24 bsc 6 e b - 0.700 - 17.78 7 l 0.115 0.200 2.93 5.08 4 n24 249 rev. 0 12/93
19 fn8193.2 october 12, 2006 x9410 small outline plast ic packages (soic) notes: 1. symbols are defined in the ?mo series symbol list? in section 2.2 of publication number 95. 2. dimensioning and tolerancing per ansi y14.5m - 1982. 3. dimension ?d? does not include mold flash, protrusions or gate burrs. mold flash, protrusion and gate burrs shall not exceed 0.15mm (0.006 inch) per side. 4. dimension ?e? does not include in terlead flash or protrusions. inter- lead flash and protrusions shall not exceed 0.25mm (0.010 inch) per side. 5. the chamfer on the body is optional. if it is not present, a visual index feature must be located within the crosshatched area. 6. ?l? is the length of terminal for soldering to a substrate. 7. ?n? is the number of terminal positions. 8. terminal numbers are shown for reference only. 9. the lead width ?b?, as measured 0.36mm (0.014 inch) or greater above the seating plane, shall not exceed a maximum value of 0.61mm (0.024 inch) 10. controlling dimension: millimete r. converted inch dimensions are not necessarily exact. index area e d n 123 -b- 0.25(0.010) c a m bs e -a- l b m -c- a1 a seating plane 0.10(0.004) h x 45 c h 0.25(0.010) b m m m24.3 (jedec ms-013-ad issue c) 24 lead wide body small outline plastic package symbol inches millimeters notes min max min max a 0.0926 0.1043 2.35 2.65 - a1 0.0040 0.0118 0.10 0.30 - b 0.013 0.020 0.33 0.51 9 c 0.0091 0.0125 0.23 0.32 - d 0.5985 0.6141 15.20 15.60 3 e 0.2914 0.2992 7.40 7.60 4 e 0.05 bsc 1.27 bsc - h 0.394 0.419 10.00 10.65 - h 0.010 0.029 0.25 0.75 5 l 0.016 0.050 0.40 1.27 6 n24 247 0 8 0 8 - rev. 1 4/06
20 fn8193.2 october 12, 2006 x9410 small outline package family (so) gauge plane a2 a1 l l1 detail x 4 4 seating plane e h b c 0.010 b m ca 0.004 c 0.010 b m ca b d (n/2) 1 e1 e n n (n/2)+1 a pin #1 i.d. mark h x 45 a see detail ?x? c 0.010 mdp0027 small outline package family (so) symbol so-8 so-14 so16 (0.150?) so16 (0.300?) (sol-16) so20 (sol-20) so24 (sol-24) so28 (sol-28) tolerance notes a 0.068 0.068 0.068 0.104 0.104 0.104 0.104 max - a1 0.006 0.006 0.006 0.007 0.007 0.007 0.007 0.003 - a2 0.057 0.057 0.057 0.092 0.092 0.092 0.092 0.002 - b 0.017 0.017 0.017 0.017 0.017 0.017 0.017 0.003 - c 0.009 0.009 0.009 0.011 0.011 0.011 0.011 0.001 - d 0.193 0.341 0.390 0.406 0.504 0.606 0.704 0.004 1, 3 e 0.236 0.236 0.236 0.406 0.406 0.406 0.406 0.008 - e1 0.154 0.154 0.154 0.295 0.295 0.295 0.295 0.004 2, 3 e 0.050 0.050 0.050 0.050 0.050 0.050 0.050 basic - l 0.025 0.025 0.025 0.030 0.030 0.030 0.030 0.009 - l1 0.041 0.041 0.041 0.056 0.056 0.056 0.056 basic - h 0.013 0.013 0.013 0.020 0.020 0.020 0.020 reference - n 8 14 16 16 20 24 28 reference - rev. l 2/01 notes: 1. plastic or metal protrusions of 0.006? maximum per side are not included. 2. plastic interlead protrusions of 0.010? maximum per side are not included. 3. dimensions ?d? and ?e1? are measured at datum plane ?h?. 4. dimensioning and tolerancing per asme y14.5m - 1994
21 all intersil u.s. products are manufactured, asse mbled and tested utilizing iso9000 quality systems. intersil corporation?s quality certifications ca n be viewed at www.intersil.com/design/quality intersil products are sold by description only. intersil corpor ation reserves the right to make changes in circuit design, soft ware and/or specifications at any time without notice. accordingly, the reader is cautioned to verify that data sheets are current before placing orders. information furnishe d by intersil is believed to be accurate and reliable. however, no responsibility is assumed by intersil or its subsidiaries for its use; nor for any infringements of paten ts or other rights of third parties which may result from its use. no license is granted by implication or otherwise under any patent or patent rights of intersil or its subsidiari es. for information regarding intersil corporation and its products, see www.intersil.com fn8193.2 october 12, 2006 x9410 thin shrink small outline package family (tssop) n (n/2)+1 (n/2) top view a d 0.20 c 2x b a n/2 lead tips b e1 e 0.25 cab m 1 h pin #1 i.d. 0.05 e c 0.10 c n leads side view 0.10 cab m b c see detail ?x? end view detail x a2 0 - 8 gauge plane 0.25 l a1 a l1 seating plane mdp0044 thin shrink small outline package family symbol 14 ld 16 ld 20 ld 24 ld 28 ld tolerance a 1.20 1.20 1.20 1.20 1.20 max a1 0.10 0.10 0.10 0.10 0.10 0.05 a2 0.90 0.90 0.90 0.90 0.90 0.05 b 0.25 0.25 0.25 0.25 0.25 +0.05/-0.06 c 0.15 0.15 0.15 0.15 0.15 +0.05/-0.06 d 5.00 5.00 6.50 7.80 9.70 0.10 e 6.40 6.40 6.40 6.40 6.40 basic e1 4.40 4.40 4.40 4.40 4.40 0.10 e 0.65 0.65 0.65 0.65 0.65 basic l 0.60 0.60 0.60 0.60 0.60 0.15 l1 1.00 1.00 1.00 1.00 1.00 reference rev. e 12/02 notes: 1. dimension ?d? does not include mold flash, protrusions or gate burrs. mold flash, protrusions or gate burrs shall not exceed 0.15mm per side. 2. dimension ?e1? does not include interlead flash or protrusions. interlead flash and protrusi ons shall not exceed 0.25mm per side. 3. dimensions ?d? and ?e1? are measured at datum plane h. 4. dimensioning and tolerancing per asme y14.5m - 1994.
x9410 printer friendly version dual digitally controlled potentiometer (xdcps?) datasheets, related docs & simulations description key features parametric data related devices ordering information part no. design-in status temp. package msl price us $ x9410wp24 active comm 24 ld pdip n/a 3.23 x9410wp24-2.7 active comm 24 ld pdip n/a 3.55 x9410wp24i active ind 24 ld pdip n/a 4.04 x9410wp24i-2.7 active ind 24 ld pdip n/a 4.43 x9410ws24 active comm 24 ld soic 5 3.23 x9410ws24-2.7 active comm 24 ld soic 5 3.55 x9410ws24-2.7t1 active comm 24 ld soic t+r 5 3.55 x9410ws24i active ind 24 ld soic 5 4.04 x9410ws24i-2.7 active ind 24 ld soic 5 4.43 x9410ws24i-2.7t1 active ind 24 ld soic t+r 5 4.43 x9410ws24it1 active ind 24 ld soic t+r 5 4.04 x9410ws24iz active ind 24 ld tssop 5 4.04 x9410ws24iz-2.7 active ind 24 ld tssop 5 4.43 x9410ws24iz-2.7t1 active ind 24 ld tssop t+r 5 4.43 x9410ws24izt1 active ind 24 ld tssop t+r 5 4.04 x9410ws24t1 active comm 24 ld soic t+r 5 3.23 x9410ws24z active comm 24 ld tssop 5 3.23 x9410ws24z-2.7 active comm 24 ld tssop 5 3.55 x9410ws24z-2.7t1 active comm 24 ld tssop t+r 5 3.55 x9410ws24zt1 active comm 24 ld tssop t+r 5 3.23 x9410wv24 active comm 24 ld tssop 1 4.04 x9410wv24-2.7 active comm 24 ld tssop 1 4.43 x9410wv24-2.7t1 active comm 24 ld tssop t+r 1 4.43 x9410wv24i active ind 24 ld tssop 1 5.04 x9410wv24i-2.7 active ind 24 ld tssop 1 5.54 x9410wv24i-2.7t1 active ind 24 ld tssop t+r 1 5.54 x9410wv24it1 active ind 24 ld tssop t+r 1 5.04 x9410wv24iz active ind 24 ld tssop 3 5.04 x9410wv24iz-2.7 active ind 24 ld tssop 3 5.54 x9410wv24iz-2.7t1 active ind 24 ld tssop t+r 3 5.54 x9410wv24izt1 active ind 24 ld tssop t+r 3 5.04 x9410wv24t1 active comm 24 ld tssop t+r 1 4.04
x9410wv24z active comm 24 ld tssop 3 4.04 x9410wv24z-2.7 active comm 24 ld tssop 3 4.43 x9410wv24z-2.7t1 active comm 24 ld tssop t+r 3 4.43 x9410wv24zt1 active comm 24 ld tssop t+r 3 4.04 x9410ys24 active comm 24 ld soic 5 3.23 x9410ys24-2.7 active comm 24 ld soic 5 3.55 x9410ys24i active ind 24 ld soic 5 4.04 x9410ys24i-2.7 active ind 24 ld soic 5 4.43 x9410ys24iz active ind 24 ld tssop 5 4.04 x9410ys24iz-2.7 active ind 24 ld tssop 5 4.43 x9410ys24z active comm 24 ld tssop 5 3.23 x9410ys24z-2.7 active comm 24 ld tssop 5 3.55 x9410yv24 active comm 24 ld tssop 1 4.04 x9410yv24-2.7 active comm 24 ld tssop 1 4.43 x9410yv24i active ind 24 ld tssop 1 5.04 x9410yv24i-2.7 active ind 24 ld tssop 1 5.54 x9410yv24iz active ind 24 ld tssop 3 5.04 x9410yv24iz-2.7 active ind 24 ld tssop 3 5.54 x9410yv24z active comm 24 ld tssop 3 4.04 x9410yv24z-2.7 active comm 24 ld tssop 3 4.43 xlabview01 active n/a 91.77 xlabview01z active eval board n/a 91.77 the price listed is the manufacturer's suggested retail price for quantities between 100 and 999 units. however, prices in today's market are fluid and may change without notice. msl = moisture sensitivity level - per ipc/jedec j-std-020 smd = standard microcircuit drawing description the x9410 integrates two digitally controlled potentiometers (xdcp) on a monolithic cmos integrated microcircuit. the digitally controlled potentiometer is implemented using 63 resistive elements in a series array. between each element are tap points connected to the wiper terminal through switches. the position of the wiper on the array is controlled by the user through the spi bus interface. each potentiometer has associated with it a volatile wiper counter register (wcr) and 4 nonvolatile data registers (dr0:dr3) that can be directly written to and read by the user. the contents of the wcr controls the position of the wiper on the resistor array through the switches. power up recalls the contents of dr0 to the wcr. the xdcp can be used as a three-terminal potentiometer or as a two-terminal variable resistor in a wide variety of applications including control, parameter adjustments, and signal processing. key f eatures two potentiometers per package spi serial interface register oriented format direct read/write/transfer wiper positions store as many as four positions per potentiometer power supplies v cc = 2.7v to 5.5v v+ = 2.7v to 5.5v v- = -2.7v to -5.5v low power cmos
standby current <1a high reliability endurance - 100,000 data changes per bit per register register data retention - 100 years 8-bytes of nonvolatile eeprom memory 10k resistor arrays resolution: 64 taps each pot 24 ld soic, 24 ld tssop, and 24 ld plastic dip packages pb-free plus anneal available (rohs compliant) related documentation application note(s): a compendium of application circuits for intersil?s digitally-controlled (xdcp) potentiometers a primer on digitally-controlled potentiometers application of intersil digitally controlled potentiometers (xdcp?) as hybrid analog/digital feedback system control elements dc/dc module trim with digital potentiometers designing power supplies using intersil?s xdcp mixed signal products power supply and dc to dc converter control using intersil digitally controlled potentiontiometers (xdcps) putting analog on the bus shaft encoder drives multiple intersil digitally controlled potentiontiometers (xdcps) tone, balance, and volume control using a quad xdcp datasheet(s): low noise/low power/spi bus technical brief(s): converting a fixed pwm to an adjustable pwm evaluation board(s): intersil_xdcp_test_utility_manual_rev_3.2.3.pdf labview_xdcp_software.zip labview_xdcp_upgrade_3.2.3.zip readme_xicorlabview_v3.2.3.txt xdcp_vref evaluation board kit documentation and software accesshw.zip technical homepage: digitally controlled potentiometers (dcps) and capacitors (dccs) precision analog homepage parametric data number of dcps dual number of taps 64 memory type non-volatile bus interface type spi resistance options (k ) 10 v cc range (v) 2.7 to 5.5 dcp bias range (v) -10, +10 dcp differential terminal voltage (v) 10 v+, v- supply range (v) -5.5 to -2.7 terminal voltage range v l to v h (v) v- to v cc resistance taper linear wiper current (ma) 3 wiper resistance ( ) 150 standby current i sb ( a) 1 related devices parametric table x9221a dual digitally controlled potentiometer (xdcp?) x9418 low noise, low power, 2-wire bus dual digitally controlled potentiometer (xdcp?)
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