� exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 ? operates from a single +5v power supply ? meets all rs-232d and v.28 specifcations ? 30v receiver input levels ? low power cmos operation ? operates with 0.�f ceramic capacitors ? lead free packaging selection table SP238A +5v powered multi-channel rs-232 drivers/receivers model power supplies no. of rs-232 drivers no. of rs-232 receivers external components low power shutdown ttl 3-state wake-up no. of pins SP238A +5v 4 4 4 capacitors no no no 24 description the SP238A is a multi-channel rs-232 line transceiver that can ft most communication needs, espe - cially where � 2v is not available. it features a built-in charge pump voltage converter, allowing it to operate from a single +5v power supply . all drivers and receivers meet all eia rs-232d and ccitt v.28 requirements. the SP238A is available in a wsoic lead free package.
exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 2 this is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operation sections of this specifcation is not implied. exposure to absolute maximum rating conditions for extended periods of time may affect reliability. v cc .............................................................................................. +6v v + ................................................................... (vcc - 0.3v) to +�3.2v v C ............................................................................................. �3.2v input voltages: t in ...................................................................... C0.3 to (vcc +0.3v) r in ............................................................................................ 30v output voltages: t out ........................................................... (v+, +0.3v) to (v-, -0.3v) r out .................................................................. -0.3v to (vcc +0.3v) short circuit duration: t out ................................................................................. continuous power dissipation: small outline ........................................................................ 375mw (derate 7mw/c above +70c) p arameters min. t yp. max. units conditions power requirements v cc power supply current 5.0 �0.0 ma no load, t a = +25 c shutdown supply current �.0 �0 a t a = +25 c logic inputs input logic threshold, low 0.8 v t in input logic threshold, high 2.0 v t in logic pull-up current �5 200 a t in = 0v rs-232 inputs rs-232 input voltage range -30 +30 v rs-232 input threshold, low 0.8 �.2 v v cc = 5v, t a = +25c rs-232 input threshold, high �.7 2.4 v v cc = 5v, t a = +25c rs-232 input hysteresis 0.2 0.5 �.0 v v cc = 5v rs-232 input impedance 3 5 7 k? t a = +25c, -15v v in +15v logic outputs output voltage low 0.4 v i out = 3.2ma output voltage high 3.5 v i out = �.0ma rs-232 outputs propagation delay �.5 s rs-232 to ttl instantaneous slew rate 30 v/s c l = � 0pf, r l = 3-7k?; t a = +25c transition region slew rate 3 v/s c l = 2500pf, r l = 3k?; mea - sured from +3v to -3v or -3v to +3v output voltage swing +/-5.0 v all driver outputs loaded with 3k? to ground output resistance 300 ? v cc = 0v; v out = +/-2v output short-circuit current +/-�0 ma infnite duration electrical characteristics v cc =+5v10%; all specifcations t min to t max unless otherwise noted. absolute maximum r atings
3 exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 pinout typ ical app lications circuit
exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 4 feat ures the SP238A multi-channel rs-232 line trans - ceiver provides 4 drivers and 4 receivers to ft most communication needs, especially those applications where � 2v is not available. the device features low power cmos operation, which is particularly benefcial in battery-powered systems. the device includes two charge pump voltage converters which allows it to operate from a single +5v supply. these converters convert the +5v input power to the minimum loaded voltage of 5.0v for compliant rs-232 output levels. all drivers and receivers meet all eia rs-232d and ccitt v.28 specifcations. the device is available for use over the com - mercial and industrial temperature ranges . it is packaged in a wsoic package. theo ry of oper ation the SP238A is made up of three basic circuit blocks - � ) transmitter, 2) receiver and 3) charge pump. driver/t ransmitter the drivers are inverting transmitters, which ac - cept ttl or cmos inputs and output the rs-232 signals with an inverted sense relative to the input logic levels. the transmitter outputs are protected against infnite short-circuits to ground without degradation in reliability. should the input of the driver be left open, an internal 400k? pull-up resistor to vcc forces the input high, thus com - mitting the output to a low state. the slew rate of the transmitter output is internally limited to a maximum of 30v/s in order to meet the standards [eia rs-232-d 2. � .7, paragraph (5)]. the transition of the loaded output from v ol to v oh clearly meets the monotonicity requirements of the standard [eia rs-232-d 2. � .7, paragraphs (�) & (2)] . receivers the receivers convert rs-232 input signals to inverted ttl signals. since the input is usually from a transmission line, where long cable lengths and system interference can degrade the signal, the inputs have a typical hysteresis margin of 500mv. this ensures that the receiver is virtually immune to noisy transmission lines. the input thresholds are 0.8v minimum and 2.4v maximum, again well within the 3v rs- 232 requirements. the receiver inputs are also protected against voltages up to 30v. should an input be left unconnected, a 5k? pull-down resistor to ground will commit the output of the receiver to a high state. in actual system applications, it is quite pos - sible for signals to be applied to the receiver inputs before power is applied to the receiver circuitry. this occurs, for example, when a pc user attempts to print, only to realize the printer wasnt turned on. in this case an rs-232 signal from the pc will appear on the re - ceiver input at the printer. when the printer power is turned on, the receiver will operate normally. all series devices are fully protected. charge pump t he charge pump is a patented design and uses a unique approach compared to older less effcient designs. the charge pump requires 4 external capacitors and uses a four phase volt - age shifting technique. the internal power sup - ply consists of a regulated dual charge pump that provides output voltages of +/-5.5v. this is important to maintain compliant rs-232 lev - els regardless of power supply fuctuations. the charge pump operates in a discontinuous mode using an internal oscillator. if the voltages are less than a magnitude of 5.5v, the charge pump is enabled. if the output voltage exceed a magnitude of 5.5v then the charge pump is disabled. the internal oscillator controls the four phases of the voltage shifting. a description of each phase follows: description
5 exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 phase 1 vss charge store and double: the positive ter - minals of capacitors c � and c2 are charged from vcc with their negative terminals initially connected to ground. c � + is then connected to ground and the stored charge from c � - is superimposed onto c2-. since c2+ is still con - nected to vcc the voltage potential across c2 is now 2 x vcc. phase 2 vss transfer and invert: phase two connects the negative terminal of c2 to the vss storage capacitor and the positive terminal of c2 to ground. this transfers the doubled and inverted (v-) voltage onto c4. meanwhile, capacitor c � is charged from vcc in order to prepare it for its next phase. phase 3 vdd charge store and double: phase three is identical to the frst phase. the positive termi - nals of c � and c2 are charged from vcc with their negative terminals initially connected to ground. c � + is then connected to ground and the stored charge from c � - is superimposed onto c2-. since c2+ is still connected to vcc the voltage potential across capacitor c2 is now 2 x vcc. phase 4 vdd transfer: the fourth phase connects the negative terminal of c2 to ground and the posi - tive terminal of c2 to the vdd storage capacitor . this transfers the doubled (v+) voltage onto c3. meanwhile, capacitor c � is charged from vcc to prepare it for its next phase. under lightly loaded conditions, the intelligent pump oscillator maximizes effciency by running only as needed to maintain v+ and v- voltage levels. since interface transceivers spend most of their time at idle, this power-effcient innova - tion can greatly reduce total power consump - tion. this improvement is made possible by the independent phase sequences of the exar charge pump design. description the clock rate of the charge pump typically op - erates greater than 70khz allowing the pump to operate effciently using small 0.1uf capacitors. effcient operation depends on the rapid charg - ing and discharging of c � and c2. therefore, the capacitors should be mounted as close as possible to the ic and have a low esr (equiva - lent series resistance). inexpensive, surface mount ceramic capacitors are ideal for use on charge pump. if polarized capacitors are used the positive and negative terminals should be connected as shown on the typical operating circuit. a diagram of the 4 individual phases is shown in figure �.
exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 6 c 2 + - v cc c 3 c 4 c 1 + + + e - e - phases 1 and 3: store/double. double charge from c 1 onto c2. c 2 is now charged to -2xvcc + c 2 + - v cc c 3 c 4 c 1 + + + e - + e + e + c 2 + - v cc c 3 c 4 c 1 + + + phase 2 ? vss transfer from c2 to c4. meanwhile c 1 is charged to vcc e - e - e - + vss transfer from c2 to c3. meanwhile c1 is charged to vcc v dd v- v+ v- v+ v+ patented 5,306,954 phase 4 v dd figure �. charge pump phases description
7 exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 figure 2. high voltage short-circuit protection ibm modem port interconnections interf ace example - a modem on the ibm pc serial port the rs-232 standard defnes 22 serial interface signals. these signals consist of ground lines, timing, data, control and test signals, plus a set of signals rarely used for a second data channel. many of these signal lines are not used in typical rs-232 applications; in fact, the ibm ? pc serial port is implemented using only nine pins. for example, consider the case of a pc using this nine pin port to communicate with a peripheral device such as a modem. we see the following activity on each of the rs-232 lines as the com - puter and modem are activated and communicate with each other as well as the remote modem at the other end of the phone line. signal ground (gnd) the signal ground pin acts as a reference for all the other signals. this pin is simply maintained at a 0v level to serve as a level to which all other signals are referenced. both the pc and the modem will have this line connected to their respective internal ground lines. data t erminal ready (dtr) this is the pin the computer uses to tell pe - ripheral devices that it is on-line and ready to communicate. data set ready (dsr) peripheral devices use this line to tell the computer that they are on-line and ready to communicate. when the modem is turned on and has completed its self-test routine (assuming it does one), it will send a signal to the pc by asserting this line . request t o send (rts) the computer activates this line to notify the peripheral device that it is ready to send data. in this example, the computer notifes the modem that it is ready to send data to be transmitted by the modem. clear t o send (cts) this is the line on which the peripheral device tells the computer that it is ready to receive data from the computer. if the modem was not ready, i.e. it was performing a loop-back self-test, for example, it would not assert this line. once the modem was ready to receive data from the pc, it would assert this line. when it receives the cts signal from the modem, the pc knows that a data transmission path has been established between itself and the modem. protection from shorts exceeding 15v the driver outputs are protected against shorts to ground, other driver outputs, and v + or v - . for protection against voltages exceeding � 5v, two back-to-back zener diodes connected to clamp the outputs to an acceptable voltage level are recommended. (refer to figure 2.) application examples
exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 8 t ransmitted data (td or tx) this is the pin on which the computer sends the actual data signal to be transmitted, i.e. a positive voltage (+3v to + � 5v) to represent a logic 0, and a negative voltage (-3v to - � 5v) to represent a logic � . the pc would send the data on this line to be transmitted by the modem. ring indicator (ri) this line is used by the peripheral device to tell the computer that a remote device wants to start communicating. the modem would activate the r i line to tell the computer that the remote modem was calling, i.e. the phone is ringing. data carrier detect (dcd) this line is used by the modem to tell the com - puter that it has completed a transmission path with the remote modem, and to expect to start receiving data at any time. received data (rd or rx) this is the pin on which the modem sends the computer the incoming data signal, i.e. a positive voltage (+3v to + � 5v) to represent a logic 0, and a negative voltage ( - 3v to -� 5v) to represent a logic �. interf ace example - a printer on the ibm pc serial port the rs-232 standard defnes 22 serial interface signals. these signals consist of ground lines, timing, data, control and test signals, plus a set of signals rarely used for a second data channel. many of these signal lines are not used in typical rs-232 applications; in fact, the ibm ? pc serial port is implemented using only nine pins. for ex - ample, consider the case of a pc using this nine pin port to communicate with a peripheral device such as a printer. we see the following activity on each of the rs-232 lines as t he computer and printer are activated and communicate. signal ground (gnd) the signal ground pin acts as a reference for all the other signals. this pin is simply maintained at a 0v level to serve as a level to which all other signals are referenced. both the pc and the printer will have this line connected to their respective internal ground lines. ibm printer port interconnections data t erminal ready (dtr) this is the pin the computer uses to tell peripheral devices that it is on-line and ready to communi - cate. once the computer is powered-up and ready, it will send out a signal on the dtr to inform the printer that it is powered-up and ready to go. the printer really doesnt care, since it will simply print data as it is received. accordingly, this pin is not needed at the printer. data set ready (dsr) peripheral devices use this line to tell the computer that they are on-line and ready to communicate. when the printer is turned on and has completed its self-test routine (assuming it does one), it will send a signal to the pc by asserting this line. request t o send (rts) the computer activates this line to notify the peripheral device that it is ready to send data. in this example, the computer notifes the printer that it is ready to send data to be printed by the printer. clear t o send (cts) this is the line on which the peripheral device tells the computer that it is ready to receive data from the computer. if the printer was not ready, i.e. it was out of paper, for example, it would not assert this line. once the printer was ready to receive data from the pc, it would assert this line. when it receives the cts signal from the printer, the pc knows that a data transmission path has been established between itself and the printer. application examples
9 exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 t ransmitted data (td or tx) this is the pin on which the computer sends the actual data signal representing the actual infor - mation to be printed, i.e. a positive voltage (+3v to + � 5v) to represent a logic 0, and a negative voltage (-3v to -�5v) to represent a logic �. ring indicator (ri) this line is used by the peripheral device to tell the computer that a remote device wants to start communicating. a modem would activate the ri line to tell the computer that a remote modem was calling, i.e. the phone is ringing. in the case of a printer, this line is unused. data carrier detect (dcd) this line is used by a peripheral device to tell the computer to expect to start receiving data at any time. since the printer would not be sending data to the pc in this case this line is not needed. received data (rd or rx) this is the pin on which the computer receives the incoming data signal, i.e. a positive voltage (+3v to + � 5v) to represent a logic 0, and a negative voltage ( - 3v to -� 5v) to represent a logic � . again, in this instance, since the printer will not be sending the pc any data, this line is not needed . application examples
exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 �0 typical performance characteristics figure 3, charge pump waveforms with no load (ch� = c�+, ch2 = c2+, ch3 = v+, ch4 = v-). figure 4, charge pump waveforms when fully loaded with 3k ohms (ch� = c�+, ch2 = c2+, ch3 = v+, ch4 = v-). figure 6, charge pump outputs at start up (ch� = vcc, ch2 = v+, ch3 = v-). figure 5, loopback results at �0khz and 2500pf load (ch� = txin, ch2 = txout/ rxin, ch3 = rxout).
�� exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0
exar corporation 48720 kato road, fremont ca, 94538 ? (5�0)668-70� 7 ? www.exar.com SP238A_�00_07�4�0 �2 date revision description 8/3/04 - sipex legacy data sheet 07/�4/�0 �.0.0 convert to exar format. update theory of operation and driver output voltage levels to refect regulated charge pump. remove various eol products. update performance curves to refect new charge pump design. redraw pinout and typ apps circuit to improve clarity. revision history -l = rohs packaging /tr = tape and reel pack quantity is �,500 for wsoic. SP238Act -l ........................................... 0c to +70c ........................................ 24 pin wsoic SP238Act -l/tr ..................................... 0c to +70c ........................................ 24 pin wsoic SP238Aet -l ......................................... -40c to +85c ....................................... 24 pin wsoic SP238Aet -l/tr .................................... -40c to +85c ....................................... 24 pin wsoic ordering inform ation notice exar corporation reserves the right to make changes to any products contained in this publication in order to improve design, performance or reliabil - ity. exar corporation assumes no representation that the circuits are free of patent infringement. charts and schedules contained herein are only for illustration purposes and may vary depending upon a user's specifc application. while the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. exar corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to signifcantly affect its safety or effectiveness. products are not authorized for use in such applications unless exar corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized ; (b) the user assumes all such risks; (c) potential liability of exar corporation is adequately protected under the circumstances. copyright 20�0 exar corporation datasheet july 20�0 send your interface technical inquiry with technical details to: uarttechsupport@exar.com reproduction, in part or whole, without the prior written consent of exar corporation is prohibited.
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