features receives/transmits data on only two leads low current consumption high noise immunity sabotage surveilled loop input package options cs212 security detector serial-addressable receiver/transmitter cs212 description block diagram 1 out0 2 3 4 5 6 7 8 a4 a3 a2 a1 a0 in1 in0 16 15 14 13 12 11 10 9 out1 dsr in2 in3 v dd data out gnd line 16l pdip & 16l so wide 1 ck "1" v data "1" data "0" april, 2001 - rev. 5 on semiconductor 2000 south county trail, east greenwich, ri 02818 tel: (401)885?600 fax: (401)885?786 n. american technical support: 800-282-9855 web site: www.onsemi.com archive device not recommended for new design the s-art is a 16 pin circuit designed for data transmission on a two-lead cable. the circuit is spe- cially developed for alarm systems where it is desired to identify each detector individually. there can be up to 30 s-art circuits/detectors on the same 2-lead cable. this cable transmits both dc supply to the s-art and information to/from the s-art. the s-art works on the principle by which an address is sent on the line cable and the s-art which rec- ognizes the address then carries out the order which can, in principle, be two things: 1. transmit data from the line cable to the s-art's two outputs out0 and out1. 2. answer the s-art controller with the condition of the 2 inputs in0 and in1 or in2-3. the line signal is divided into 3 lev- els in order to give a time signal for synchronizing and a data signal containing addresses, orders etc. typical signal levels for the three levels would be 15v, 7.5v and 0v. block diagram line 1 controller line n s-art a method by which, in principle, the system can be extended to an infinite number of s-art is shown on the block diagram. the controller scans the in/out- puts of a number of lines, each with a maximum of 30 s-arts.
lead temperature soldering: wave solder (through hole styles only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 0 sec. max 260? peak reflow (smd styles only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .60 sec max. abov e 183?, 230? peak storage temperature range, t s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-65 to 150? maximum operating junction temperature, t j . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .125? electrical characteristics: t a = 25?, unless otherwise specified. parameter test conditions min typ max unit cs212 2 absolute maximum ratings operating temperature range, t a -40 85 ? device current i dd outputs unloaded 0.47 0.80 ma not addressed line voltage=0-15v, v dd =15v device current i dd in0, in1 are open 3.55 5.50 ma power-up-mode in2, in3 are active (5 corr. addr. bits)c p 4-c p 5v dd =15v device current i dd in2, in3 not active 6.24 9.64 ma addressed, line output in0, in1 are open transistor active v dd =15v device current i dd in2, in3 not active 1.84 2.86 ma addressed (4 corr.addr.bits) in0, in1 are open line output transistor not active v dd =15v output voltage low level v dd =10-15v 1.2 v out0, out1, dsr i sink =1ma output sink current 1.0 ma out0, out1, dsr output voltage high level 14 v out0, out1, dsr leakage current v out =14v 30 �a out0, out1, dsr input voltage level low v dd =10-15v 30%v dd v a0-a4, in0, in1 high v dd =10-15v 70%v dd v input current in0, in1=gnd v dd =18v 150 850 �a power-up mode (4 corr.addr.bits) input current v dd =18v 20 �a a0-a4, in0, in1 not addressed positive trigger threshold v p , c clock comparator 11.0 11.7 12.4 v voltage v dd =15v v p , d data comparator 4.6 5.7 6.6 v negative trigger v nc v dd =15v clock comparator 10.2 10.9 11.6 v threshold voltage v nc v dd =15v, data comparator 3.4 4.3 5.2 v hysteresis voltage v dd =15v 0.7 0.8 v clock/data comp. saturation voltage for v dd =15v, i c =50ma 1 v line output driver saturation voltage for v dd =15v, i c =10ma 0.4 v line output driver leakage current v line =0-18v, v dd =18v �16 �a for the line output line signal freq. v dd =15v�1v 0 20 khz rise/fall-time line signal 0.25 250.00 �s
parameter test conditions min typ max unit cs212 3 electrical characteristics: t a = 25?, unless otherwise specified. package pin description package pin # pin symbol function 1 out0 output (open collector) from s-art. 2 a4 address input. must be connected to v dd or gnd according to the relevant address code. 3 a3 address input. must be connected to v dd or gnd according to the relevant address code. 4 a2 address input. must be connected to v dd or gnd according to the relevant address code. 5 a1 address input. must be connected to v dd or gnd according to the relevant address code. 6 a0 address input. must be connected to v dd or gnd according to the relevant address code. 7 in1 input to s-art. 8 in0 input to s-art. 9 line signal lead in the line cable. 10 gnd zero lead in the line cable. 11 data out output from the s-art, which is active in the read-mode. transmits data from s-art to line. 12 v dd supply voltage to the s-art. the voltage is derived from the line signal. 13 in3 sabotage surveilled loop (shorting and breaking). 14 in2 sabotage surveilled loop (shorting and breaking). 15 dsr data set ready. output (open collector) from the s-art which is active during write-mode, when out0 and out1 change. 16 out1 output (open collector) from s-art. turn-on time for 1.0 �s line output driver turn-off time for 1.0 �s line output driver line voltage vl (note 1) 0 28 v loop current in2, in3 0.1 0.5 ma alarm condition in2-in3 1 5 k ? loop open alarm condition in2-in3 5 30 k ? loop shorted note 1: the circuit shall function in the correct way only between 0 and 18v dc . data driver must not turn on when line voltage is above 18v.
4 cs212 serial-addressable receiver transmitter s-art address coding the circuit is coded on address inputs a0-a4. in order to reduce the power consumption to the circuits they are in power down mode for most of the time. only when a circuit is addressed is the amount to that particular circuit increased. read when a s-art has recognized an address with the correct parity and then received a read-order the controller becomes passive. the s-art in question will then send data bits to the controller. these bits are the condition on the in0 and in1 or in2-3 and a parity bit derived from them. the current in inputs in0 and in1 only flows when the s-art is addressed. if the sabotage surveilled loop in2-3 is used in1 should be open. in2-3 is then read instead of in1. the loop in2-3 is checked for both shorting and breaking. write when a s-art has recognized an address with correct par- ity and a write order, the s-art in question transmits data to the outputs out0 and out1. this data transmission takes place after a check of the parity bit. if the parity bit is wrong, data transmission to out0 and out1 is blocked and new data transmission can only take place after a read order which resets the parity fault. the dsr signal can be used to strobe out0 and out1 fur- ther on in the following logic. data format the signals are sent out on the line in words organized as shown in the figure. the s-art information consists of two parity bits: an address parity bit and a data parity bit. both the address and data are checked for even parity. the address parity bit must always be generated by the controller. the data parity bit during the read-mode is generated by the s-art. during the write-mode the data parity bit is gen- erated by the controller. typical s-art applications s-art s-art 1) alarm detector line from controller address coding 3) alarm indicator/data transmission line from controller address coding in0 in1 tamper contact alarm contact detector bells lamps etc. logic circuit s-art 2) window foil line from controller address coding in2 in3 foil terminal lead the foil is checked both for shorts and breakage. short cables end of loop circuit address code transmission line line data out v dd gnd in0 + in1 + in2 + in3 c r1 a0 a4 out0 out1 dsr gnd gnd r2 addresses add. parity command data data parity + indicates in1 and loop in2, in3 cannot be used at the same time. functional description general the cs212 is a peripheral addressable circuit which is used as a communication link between detectors/sensors and a central control unit. the communication between the cs212 and a control unit takes place via a simple 2-wire cable which also provides power to the ic. on each 2-wire cable, a maximum of 30 cs212's can be con- trolled or interrogated with the address binary 0-29. this permits surveillance of up to 30 window protections, door contacts, movement detectors, etc. within the same 2-wire group. each cs212 can monitor the status of two external surveillance devices and communicate the status back to the control unit. two outputs are also available for control- ling bells, lights, led's, door locks, etc. these outputs are controlled from the control unit via the 2-wire cable. wire transmission cable (the line) the 2-wire bidirectional transmission cable called "the line" provides power and data to the cs212 and also pro- vides data back to the control circuit. the line signal is rectified and filtered at each cs212 and is used for the power supply to the chip. the cs212 also decodes the line signal into clock and data signals used inside the ic.
cs 5 cs212 functional description notes: 1. * indicates in1 & loop in2-3 cannot be used at the same time. 2. this diagram shown cs212 circuit coded to #24. a typical line signal from the control unit would look like the following: the cs212 would decode this into clock and data. the cs212 accepts addresses and commands in 10-bit word formats. three types of words must be generated: sync, read and write. sync word synchronization is obtained by providing the cs212 with 8 or more 1's followed by a "0". to prevent a false sync, it is best to send 0 before the eight 1's. this word insures all cir- cuits on the same line see the commands at the proper time. read word to check the status of a cs212's inputs: i.e., in0 and in1 or in2-3, a read word must be sent. the first 5 bits must cor- respond to the address of the cs212 to be interrogated. bit #6 is the address parity bit. it must insure that the first 6 bits are an even number of "1" 's. if the parity is even and the cs212 to be interrogated has not previously received a parity error (odd parity), it will transmit its status, along with an internally generated parity bit. d0 corresponds to in0, d1 corresponds to in1 or in2-3. after the address parity bit has been transmitted the controller must pull the line down to about 7.5v to allow the cs212 to transmit. if a "1" is to be transmitted, no change will occur on the line. if a "0" is to be transmitted, the cs212 will then pull the line down. in either case, the controller must pull the line back up to 15v in order to continue. if the cs212 has received a parity fault, it will transmit 3 one's (d0=d1=p d =1). this will allow the controller to detect a parity error. if a parity error is detected by the controller, the read word must be repeated. typical read word assume that device #24 is to be interrogated and the status of in0=1 and in1=0. write word in order to update out0 and out1, a write word must be sent to the cs212. the first 5 bits must correspond to the cs212 to be updated. bit #6 is an address parity bit. it must insure even parity. d0 corresponds to out0 and d1 corre- sponds to out1. an even data parity bit must be received by the cs212. if the address and data parity are even and the cs212 has not previously received a parity error, it will update out0 and out1. if a parity error was received, the cs212 will not be updated. in this case, a read word must be sent to clear the parity fault. 011 1 1 00 0 0 0 data parity in 1 status in 0 status "0" for read add parity a4=1 x 2 4 = 16 a3=1 x 2 3 = 8 a2=0 x 2 2 = 0 a1=0 x 2 1 = 0 a0=0 x 2 0 = 0 binary = #24 011 1 1 00 0 0 0 a0 a1 a2 a3 a4 pa read bit d0 d1 pd transmitted by controller transmitted by cs-212 1 11 0 0 111 11 sync read 1 read 2 read 3 read 29 sync write 1 write 2 write 29 111 0 0 clock data positive edge strobes data into an internal shift resister 111 0 0 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 control circuit 212 1 212 29 212 3 212 2 2 wire transmission line v cc (<14v) to control bell/det. etc. 10k det loop 1 f 150 nc n0 tranmission line
cs212 typical write word: assume cs212 #2 is to be updated so that out0=1 and out1=0. outputs 1. out0 and out1: pin #'s 1, 16: these outputs are updated according to the information present during the write word. 2. dsr: pin #15: the dsr pin is a monitor of the clock signal for the on- chip d flip flops, corresponding to out0 and out1. it can be used to strobe data from out0 and out1 into external circuitry connected to the cs212. these three outputs can sink up to 1ma at 1.2v. they are darlington type open collector outputs. 3. data out: pin #11: the data out pin is used to transmit the status of in0 and in1 to the line. for data=1, the line driver is off. for data=0, the line driver is turned on. this output is a sat- urated switch capable of sinking 10ma dc at .4v and 50ma at 1v on a transient basis. the 50ma is needed to discharge the line capacitance. a 150 ? resistor from the line to pin 11 limits the current into pin 11 when the line driver is on. inputs: 1. address inputs: pin#'s 2,3,4,5,6. the cs212 has 5 address inputs which decide what address code it will respond to. their thresholds are approximately 1/2 v dd and draw less than 20�a. the inputs should be grounded for logic "0" and tied to v dd (pin 12) through a 10k resistor for logic "1". the resis- tor is necessary for non-destruction of the ic with 28v applied to the line. 2. data inputs: pin#'s 7,8. in0 and in1 (pins 8 and 7) are digital inputs and are similar to the address inputs in that they have a thresh- old of approximately 1/2 v dd . when the cs212 is unad- dressed, these inputs draw less than 20�a. when the circuit powers up, in0 and in1 typically source 400�a. 3. detector loop: pin #'s 13, 14. in2 and in3 can be used together to form a detector loop. when used, the outputs are connected together through a window foil and a diode. these inputs will generate a logic ??at d1 on the line when the pins are shorted or opened. when using in2 and in3, in1 must be terminated to v dd through the 10k resistor used for the address inputs. when using in1, in2 and in3 must be shorted or opened. 4. line input: pin #9 the line input is internally connected to two compara- tors. these comparators separate the line signal into clock and data. the line input will draw less than 16�a of input current. 5. v dd : pin #12 the v dd pin provides power to the cs212 circuitry. the line signal is externally rectified and filtered, then applied to v dd . the v dd pin draws varying amounts of current, depending upon the state of the cs212. (see specification). the unaddressed current is less than 0.8ma. the operating voltage range is 10v to 18v on pin 12 of the ic. this wide range is necessary because of losses in the line and ripple on v dd . the circuit is designed to withstand 28v applied to the line. this is to prevent the destruction of the ic and its external components if the 2-wire cable is miswired. in 1 in 2 in 3 1 when in 1=1 1 when loop is open or shorted t0 d, online durning read loop status det. out 0, out 1, dsr line dsr the edge is present when out 0 & out 1 are updated. 000 1 1 10 1 0 1 data parity out 1 out 0 "1" for write add parity a4=0 x 2 4 = 0 a3=0 x 2 3 = 0 a2=0 x 2 2 = 0 a1=1 x 2 1 = 2 a0=0 x 2 0 = 0 binary = #2 000 1 1 10 1 0 1 a0 a1 a2 a3 a4 pa write bit d0 d1 pd functional description: continued 6
cs212 7 thermal data 16l 16l so pdip wide r jc typ 42 23 ?/w r ja typ 80 105 ?/w package specification package dimensions in mm (inches) d lead count metric english max min max min 16l pdip 19.69 18.67 .775 .735 16l so wide 10.50 10.10 .413 .398 package thermal data ordering information part number description cs212en16 16l pdip cs212edw16 16l so wide cs212edwr16 16l so wide tape & reel plastic dip (n); 300 mil wide 0.39 (.015) min. 2.54 (.100) bsc 1.77 (.070) 1.14 (.045) d some 8 and 16 lead packages may have 1/2 lead at the end of the package. all specs are the same. .203 (.008) .356 (.014) ref: jedec ms-001 3.68 (.145) 2.92 (.115) 8.26 (.325) 7.62 (.300) 7.11 (.280) 6.10 (.240) .356 (.014) .558 (.022) surface mount wide body (dw); 300 mil wide 1.27 (.050) bsc 7.60 (.299) 7.40 (.291) 10.65 (.419) 10.00 (.394) d 0.32 (.013) 0.23 (.009) 1.27 (.050) 0.40 (.016) ref: jedec ms-013 2.49 (.098) 2.24 (.088) 0.51 (.020) 0.33 (.013) 2.65 (.104) 2.35 (.093) 0.30 (.012) 0.10 (.004) on semiconductor and the on logo are trademarks of semiconductor components industries, llc (scillc). on semiconductor reserves the right to make changes without further notice to any products herein. for additional infor- mation and the latest available information, please contact your local on semiconductor representative. ?semiconductor components industries, llc, 2001
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