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| exar corporation 48720 kato road, fremont ca, 94538 ? (510) 668-7000 ? fax (510) 668-7017 ? www.exar.com xr19l210 single channel integrated uart and rs-232 transceiver may 2007 rev. 1.0.1 general description the xr19l210 (l210) is a highly integrated device that combines a full-featured single channel universal asynchronous receiver and transmitter (uart) and an rs-232 transceiver. the l210 is designed to operate with a single 3.3v or 5v power supply. the l210 is fully compliant with eia/tia-232-f standards from a +3.0v to +5.5v power supply. the device operates at 250 kbps data rate with worst case 3k ohms load. both rs-232 driver outputs and receiver inputs can operate in harsh electrical environments of +/-15v without damage and ca n survive multiple +/-15kv esd on the rs-232 lines, while maintaining rs-232 output levels. the l210 operates in four different modes: awake, partial sleep, full sleep and power-save. each mode can be invoked via hardware and/or software. in the awake mode, all functions are active. in the partial sleep mode, the internal crystal oscillator or charge pump is turned off. in full sleep mode, the internal crystal oscillator and the charge pump is shut down. in the power-save mode, the core logic is isolated from t he control signals (chip select, read/write strobes, address and data bus lines). all the rs- 232 receivers remain active in any of these four modes. applications ? battery-powered equipment ? handheld and mobile devices ? handheld terminals ? industrial peripheral interfaces ? point-of-sale (pos) systems features ? meets true eia/tia-232-f standards from a 3.0 v to 5.5v operation ? up to 250 kbps data transmission rate ? 45us sleep mode exit (charge pump to full power) ? esd protection for rs-232 i/o pins at +/-15kv - human body model +/-15kv - iec 1000-4-2, air-gap discharge +/- 8kv - iec 1000-4-2, contact discharge ? software compatible with industry standard 16550 uart ? intel/motorola bus select ? half-modem inte rface (txd, rxd, rts, cts) ? sleep and power-save modes to conserve battery power ? wake-up interrupt upon exiting low power modes f igure 1. b lock d iagram xr19l210 uart rs-232 transceiver intel or motorola bus interface pwrsave a2:a0 d7:d0 ior# iow# (r/w#) cs# int (irq#) reset (reset#) i/m# crystal osc/buffer xtal1 xtal2 brg 16 byte tx fifo 16 byte rx fifo modem i/os uart registers tx rx rts# cts# charge pump txd rts 5k rxd 5k cts acp c2+ c2- c1+ c1- vcc (3.0 to 5.5v) *5 v tolerant inputs gnd vref+ vref-
xr19l210 2 single channel integrated uart and rs-232 transceiver rev. 1.0.1 f igure 2. p in o ut of the d evice ordering information p art n umber p ackage o perating t emperature r ange d evice s tatus XR19L210IL40 40-qfn -40c to +85c active 40-pin qfn motorola bus mode cts rxd nc i/m# d5 gnd d6 d7 cs# txd 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 rts nc pwrsave xtal1 xtal2 acp r/w# gnd nc c2+ c1- c1+ reset# gnd irq# a0 a1 a2 vref- c2- 30 29 28 27 26 25 24 23 22 21 40 39 38 37 36 35 34 33 32 31 nc nc d4 d3 d2 d1 d0 vcc vref+ nc gnd 40-pin qfn intel bus mode vcc cts rxd nc i/m# d5 gnd d6 d7 cs# txd 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 rts nc pwrsave xtal1 xtal2 acp iow# gnd ior# c2+ c1- c1+ reset gnd int a0 a1 a2 vref- c2- 30 29 28 27 26 25 24 23 22 21 40 39 38 37 36 35 34 33 32 31 nc nc d4 d3 d2 d1 d0 vcc vref+ nc xr19l210 3 rev. 1.0.1 single channel integrated uart and rs-232 transceiver pin descriptions pin descriptions n ame 40-qfn pin# t ype d escription data bus interface (cmos/ttl voltage levels) a2 a1 a0 23 24 25 i address bus lines [2:0]. these 3 address lines select one of the internal registers in the uart during a data bus transaction. d7 d6 d5 d4 d3 d2 d1 d0 8 7 5 38 37 36 35 34 i/o data bus lines [7:0] (bidirectional). ior# (nc) 19 i when i/m# pin is high, the intel bus interfac e is selected and this input becomes read strobe (active low). t he falling edge instigates an internal read cycle and retrieves the data byte from an internal register pointed by the address lines [a2:a0], puts the data byte on the data bus to allow the host processor to read it on the rising edge. when i/m# pin is low, the moto rola bus interface is selected and this input is not used. iow# (r/w#) 17 i when i/m# pin is high, it selects intel bus interface and this inpu t becomes write strobe (active low). the falling edge instigates the in ternal write cycle and the rising edge trans - fers the data byte on the data bus to an internal register pointed by the address lines. when i/m# pin is low, the moto rola bus interface is selected and this input becomes read (high) and write (low) signal. cs# 9 i this input is chip select (active low) to enable the device. int (irq#) 26 o (od) when i/m# pin is high, it selects intel bus interface and this out put become the active high device interrupt output. th is output is enabled through t he software setting of mcr[3]: set to the active mode when mcr[3] is set to a logic 1, and set to the three state mode when mcr[3] is set to a logic 0. see mcr[3]. when i/m# pin is low, it selects motorola bus interface and this output becomes the active low, open-drain interrupt output. an external pull-up resistor is required for proper opera - tion. mcr[3] must be set to a logic 0 for proper operation of the interrupt. modem or serial i/o interface (eia-232/rs-232 voltage levels) txd 10 o uart transmit data. the tx signal will be low (< -5v) during reset or idle (no data). rxd 2 i uart receive data. the rx data input must idle low (< -3v). rts 11 o uart request-to-send or general purpose outpu t. this output must be asserted prior to using auto rts flow control, se e efr[6], mcr[1] and ier[6]. cts 1 i uart clear-to-send or general purpose input. it can be used for auto cts flow control, see efr[7], msr[4] and ier[7]. this input has an internal pull-down resistor and can be left unconnected when not used. ancillary signals (cmos/ttl voltage levels) xtal1 14 i crystal or external clock input. this input is not 5v tolerant. xtal2 15 o crystal or buffered clock output. this output may be use to drive a clock buffer which can drive other device(s). xr19l210 4 single channel integrated uart and rs-232 transceiver rev. 1.0.1 n ote : pin type: i=input, o=output, i/o= input/output, od=output open drain. for cmos/ttl voltage levels, ?low? indicates a voltage in the range 0v to vil and ?high" indicates a voltage in the range vih to vcc. for rs-232 input voltage levels, ?low? is any voltage < -3v and ?high? is any voltage > 3v. for rs-232 output voltage levels, ?low? is any voltage < -5v and ?high? is any voltage > 5v. pwrsave 13 i power-save (active high). this feature isolates the l210?s data bus interface from the host preventing other bus activities that cause higher power dr ain during sleep mode. see sleep mode with auto wake-up and power-save feature section for details. acp 16 i autosleep for charge pump (active high). when this pin is high, the charge pump is shut off if the l210 is already in partial sleep mode, i.e. the crystal oscillator is stopped. i/m# 4 i intel or motorola bus select. when i/m# pin is high, 16 or intel mode, the device will operate in the intel bus type of interface. when i/m# pin is low, 68 or motorola mode, the device will operate in the motorola bus type of interface. reset (reset#) 28 i when i/m# pin is high for intel bus interfac e, this input becomes reset (active high). when i/m# pin is low for motoro la bus interface, this input becomes reset# (active low). a 40 ns minimum active pulse on this pin will reset the internal registers and all outputs of the uart. the uart transmitter output will be he ld high, the receiver input will be ignored and outputs are reset during reset period (see table 11 ). c2+ c2- 20 21 - charge pump capacitors. as shown in figure 1 , a 0.1 uf capacitor should be placed between these 2 pins. c1+ c1- 29 30 - charge pump capacitors. as shown in figure 1 , a 0.1 uf capacitor should be placed between these 2 pins. vref+ 32 pwr +5.0v generated by the charge pump. vref- 22 pwr -5.0v generated by the charge pump. vcc 33 pwr 3.0v to 5.5v power supply. all cmos/ttl input pins, except xtal1, are 5v tolerant. gnd 6, 18, 27 pwr power supply common, ground. - pad pwr the center pad on the backside of the 40-qfn package is metallic and is not electrically connected to anything inside the device. it must be soldered on to the pcb and may be optionally connected to gnd on the pcb. the thermal pad size on the pcb should be the approximate size of this center pad and s hould be solder mask defined. the solder mask opening should be at least 0.0025" inwards from the edge of the pcb thermal pad. nc 3, 12, 31, 39, 40 - no connect. note that in motorola mode, the ior# pin also becomes an nc pin. pin descriptions n ame 40-qfn pin# t ype d escription xr19l210 5 rev. 1.0.1 single channel integrated uart and rs-232 transceiver 1.0 product description the xr19l210 interface converter consists of a full-fu nctional uart with 16 bytes of transmit and receive fifo, a charge pump, two rs-232 drivers, two rs-232 re ceivers, and a sleep/powersave mode circuitry. it operates from a single +3v to 5.5v supply at 250kbps data rate, while meeting all eia rs-232f specifications. its feature set is fully co mpatible to the xr16l580 device. unlike the xr16l580, the modem signals are not cmos/ttl level, but conform to eia/tia 232 or rs-232 voltage levels. the configuration registers set is 16550 uart compatible for control, status and data transfer. also, the l210 has 16-bytes of transmit and receive fifos, automatic rts/cts hard ware flow control, automatic xon/xoff and special character software flow control, transmit and receive fifo trigger le vels, and a programmable baud rate generator with a prescaler of divide by 1 or 4. additionally, the l210 includes the acp pin which the user can shut down the charge pump for the rs-232 drivers when the l210 is already in sleep mode. the power-save feature further isolates the databus interface to further reduce power consumption in the sleep mode. the l210 is fabricated using an advanced cmos process. enhanced features the l210 uart provides a solution that supports 16 byte s of transmit and receive fifo memory. the l210 is designed to work with low supply voltage and high perfor mance data communication systems that require fast data processing time. increased performance is realized in the l210 by the transmit and receive fifos, fifo trigger level controls and automatic fl ow control mechanism. this allows the external processor to handle more networking tasks within a given time. this increases the service interval giving the external cpu additional time for other applications and reducing the overall uart interr upt servicing time. in addition, the l210 provides the power-save mode that drastically reduces the po wer consumption when the device is not used. the combination of the above greatly reduces the cpu?s bandwidth requirement, increases performance, and reduces power consumption. intel or motorola data bus interface the l210 provides a host interface that supports intel or motorola microprocessor (cpu) data bus interface. the intel bus compatible inte rface allows direct interconnect to inte l compatible type of cpus using ior#, iow# and cs# inputs for data bus operation. the motoro la bus compatible interface instead uses the r/w# and cs# signals for data bus transactions. see pin descri ption section for details on a ll the control signals. the intel and motorola bus interface selection is made through the pin, i/m#. data rate the l210 is capable of operation up to 250kbps data rate using the 16x internal sampling clock rate. the uart section can operate at much higher speeds, but the speed of the rs-232 transceiver is limited to 250kbps beyond which the l210 cannot comply with the ei a/tia-232 electrical charac teristics. the device can operate either with a crystal on pins xtal1 and xt al2, or external clock source on xtal1 pin. internal enhanced register sets the l210 uart has a set of enhanced registers providing control and monitoring functions. interrupt enable/ disable and status, fifo enable/disa ble, selectable tx and rx fifo trigger levels, automatic hardware/ software flow control enable/disable, programmable bau d rates, modem interface controls and status, sleep mode and power-save mode are all standard features. following a power on reset or an external reset (and operating in 16 or intel mode), the registers defaul ts to the reset condition and is compatible with the xr16l580. rs-232 interface the l210 includes rs-232 drivers/receivers for the tx d, rxd, rts and cts signals (for a device with the complete modem interface, please see the xr19l220). this feature eliminates the need for an external rs- 232 transceiver. the charge pump provides output voltage s of +5v and -5v for its drivers over the 3.0v to 5.5v vcc supply voltage. the serial outputs tx and rts s wing between -5v (inactive) and 5v (active) rs-232 voltage levels. the serial inputs rx and cts are rs-232 receivers and can take any voltage swing from -15v to +15v. the receivers are always active, even in full sleep and power-save modes. the rs-232 drivers guarantee a data rate of 250kbps even when fully loaded with 3kohm in parallel with 1000pf load. also, the slew rate of the driver output is internally limited to a maximum of 30v/us in order to meet the eia-232f standard. xr19l210 6 single channel integrated uart and rs-232 transceiver rev. 1.0.1 2.0 functional descriptions 2.1 cpu interface the cpu interface is 8 data bits wide with 3 address li nes and control signals to execute data bus read and write transactions. the l210 data interface supports the in tel compatible types of cpus and it is compatible to the industry standard 16c550 uart. no clock (oscillator nor external clock) is requir ed to operate a data bus transaction. each bus cycle is asynchronous using cs#, ior# and iow# or r/w# inputs. a typical data bus interconnection for intel and motorola mode is shown in figure 3 . f igure 3. xr19l210 t ypical i ntel /m otorola d ata b us i nterconnections vcc vcc a0 a1 a2 uart_cs# ior# iow# d0 d1 d2 d3 d4 d5 d6 d7 a0 a1 a2 cs# d0 d1 d2 d3 d4 d5 d6 d7 ior# iow# uart_int int rs-232 interface intel data bus interconnections gnd uart_reset reset 16/68# cts rts rx tx pwrsave power-save vcc vcc a0 a1 a2 uart_cs# r/w# d0 d1 d2 d3 d4 d5 d6 d7 a0 a1 a2 cs# d0 d1 d2 d3 d4 d5 d6 d7 ior# iow# uart_irq# int motorola data bus interconnections gnd uart_reset# reset cts rts rx tx pwrsave vcc 16/68# rs-232 interface power-save 4.7k vcc xr19l210 7 rev. 1.0.1 single channel integrated uart and rs-232 transceiver 2.2 5-volt tolerant inputs the cmos/ttl level inputs of the l210 can accept up to 5v inputs when operating at 3.3v. note that the xtal1 pin is not 5v tolerant when an external clock supply is used. 2.3 device hardware reset the reset or reset# input resets the internal registers and the serial in terface outputs in both channels to their default state (see table 11 ). an active pulse of longer than 40 ns duration will be requir ed to activate the reset function in the device. 2.4 device identification and revision the xr19l210 provides a device identification code and a device revision code to distinguish the part from other devices and revisions. to read the identification code from the part, it is required to set the baud rate generator registers dll a nd dlm both to 0x00 . now reading the content of the dlm will provide 0x01 to indicate functional compatibility with xr16l580 and reading the content of dll will provide the revision of the part; for example, a reading of 0x01 means revision a. 2.5 internal registers the l210 has a set of enhanced registers for contro l, monitoring and data loading and unloading. the configuration register set is compatible to those already available in the standard 16c550. these registers function as data holding registers (thr/rhr), interrupt status and contro l registers (isr/ier), a fifo control register (fcr), receive line status and control register s, (lsr/lcr), modem status and control registers (msr/ mcr), programmable data rate (clock) divisor regist ers (dll/dlm), and an user accessible scratchpad register (spr). beyond the general 16c550 features and capa bilities, the l210 offe rs enhanced feature re gisters just like the xr16l580, namely, efr, xon1, xoff 1, xon1 and xoff 2 that provide automatic rts and cts hardware flow control and xon/xoff software flow control. all the register functions are discussed in full detail later in ?section 3.0, uart internal registers? on page 18 . 2.6 dma mode the dma mode (a legacy term) refers to data block transfer operation. the dma mode affects the state of the rxrdy# and txrdy# output pins available in the orig inal 16c550. these pins are not available in the xr19l210. the dma enable bit (fcr bit-3) does not have any function in this device and can be a ?0? or a ?1?. 2.7 int (irq#) output the interrupt output changes according to the operating mode and enhanced features setup. table 1 and table 2 below summarize the operating behavior for the transmitter and receiver in the intel and motorola modes. also see figures 18 through 21 . t able 1: int (irq#) p in o peration for t ransmitter fcr b it -0 = 0 (fifo d isabled ) fcr b it -0 = 1 (fifo e nabled ) int pin (i/m# = 1) 0 = one byte in thr 1 = thr empty 0 = fifo above trigger level 1 = fifo below trigger level or fifo empty irq# pin (i/m# = 0) 1 = one byte in thr 0 = thr empty 1 = fifo above trigger level 0 = fifo below trigger level or fifo empty xr19l210 8 single channel integrated uart and rs-232 transceiver rev. 1.0.1 2.8 crystal or external clock input the l210 includes an on-chip oscillat or (xtal1 and xtal2) to generate a clock when a crystal is connected between the xtal1 and xtal2 pins of the device. alternat ively, an external clock can be supplied through the xtal1 pin. the cpu data bus does not require this cl ock for bus operation. the cr ystal oscillator provides a system clock to the baud rate generators (brg) section found in each of the uart. xtal1 is the input to the oscillator or external clock input and xtal2 pin is the bufferred output which can be used as a clock signal for other devices in the system. please note that the input xtal1 is not 5v tolerant and therefore, the maximum voltage at the pin should be vcc when an external clock is supplied. for programming details, see ?programmable baud rate generator.? the on-chip oscillator is designed to use an industry standard micropro cessor crystal (p arallel resonant, fundamental frequency with 10-22 pf capacitance load, esr of 20-120 ohms and 100ppm frequency tolerance) connected externally be tween the xtal1 and xtal2 pins. when vcc = 5v, the on-chip oscillator can operate with a crystal whose frequency is not grea ter than 24 mhz. on the other hand, the l210 can accept an external clock of up to 50mhz at xtal1 pin also. although the l210 can accept an exteran clock of up to 50mhz, the maximum data rate supported by the rs-232 drivers is 250kbps. for further reading on the oscillator circuit please se e the application note dan108 on the exar web site at http://www.exar.com. 2.9 programmable baud rate generator the l210 uart has its own baud rate generator (brg) with a prescaler. the prescaler is controlled by a software bit (bit-7) in the mcr register. this bit selects the prescaler to divide the input crystal or external clock by a factor of 1 or 4. the clock output of the prescale r goes to the brg. the brg further divides this clock by a programmable divisor (via dll and dlm registers) between 1 and (2 16 -1) to obtain a 16x sampling rate clock of the serial data rate. the sampling rate clock is used by the transmitter for data bit shifting and receiver for data sampling. the brg divisor defaults to the maximum baud rate (dll = 0x01 and dlm = 0x00) upon power up. t able 2: int (irq#) p in o peration f or r eceiver fcr b it -0 = 0 (fifo d isabled ) fcr b it -0 = 1 (fifo e nabled ) int pin (i/m# = 1) 0 = no data 1 = 1 byte 0 = fifo below trigger level 1 = fifo above trigger level irq# pin (i/m# = 0) 1 = no data 0 = 1 byte 1 = fifo below trigger level 0 = fifo above trigger level f igure 4. t ypical c rystal c onnections c1 22-47pf c2 22-47pf y1 1.8432 mhz to 24 mhz r1 0-120 (optional) r2 500k - 1m xtal1 xtal2 xr19l210 9 rev. 1.0.1 single channel integrated uart and rs-232 transceiver programming the ba ud rate generator regi sters dlm and dll provides th e capability of selecting the operating data rate. table 3 shows the standard data rates availabl e with a 14.7456 mhz crystal or external clock at 16x sampling rate clock rate. when using a non-standard data rate crystal or external clock, the divisor value can be calculated fo r dll/dlm with the following equation. 2.10 transmitter the transmitter section comprises of an 8-bit transmit shift register (tsr) and 16 bytes of fifo which includes a byte-wide transmit holding register (thr). tsr shifts out every data bit with the 16x internal clock. a bit time is 16 clock periods. the transmitter sends the start-bit followed by the number of data bits, inserts the proper parity-bit if enabled, and adds the stop -bit(s). the status of the fifo and tsr are reported in the line status register (lsr bit-5 and bit-6). 2.10.1 transmit holding re gister (thr) - write only the transmit holding register is an 8-bit register pr oviding a data interface to the host processor. the host writes transmit data byte to the thr to be converted in to a serial data stream including start-bit, data bits, parity-bit and stop-bit(s). the least-si gnificant-bit (bit-0) becomes first data bit to go out. the thr is the input register to the transmit fifo of 16 bytes when fifo operation is enabl ed by fcr bit-0. every time a write operation is made to the thr, the fifo data pointer is automatically bumped to the next sequential data location. f igure 5. b aud r ate g enerator and p rescaler divisor (decimal) = (xtal1 clock frequency / prescaler) / (serial data rate x 16) t able 3: t ypical data rates with a 14.7456 mh z crystal or external clock o utput data rate mcr bit-7=1 o utput data rate mcr bit-7=0 ( default ) d ivisor for 16x clock (decimal) d ivisor for 16x clock (hex) dlm p rogram v alue (hex) dll p rogram v alue (hex) d ata r ate e rror (%) 100 400 2304 900 09 00 0 600 2400 384 180 01 80 0 1200 4800 192 c0 00 c0 0 2400 9600 96 60 00 60 0 4800 19.2k 48 30 00 30 0 9600 38.4k 24 18 00 18 0 19.2k 76.8k 12 0c 00 0c 0 38.4k 153.6k 6 06 00 06 0 57.6k 230.4k 4 04 00 04 0 xtal1 xtal2 crystal osc/ buffer mcr bit-7=0 (default) mcr bit-7=1 dll and dlm registers prescaler divide by 1 prescaler divide by 4 16x sampling rate clock to transmitter baud rate generator logic xr19l210 10 single channel integrated uart and rs-232 transceiver rev. 1.0.1 2.10.2 transmitter operation in non-fifo mode the host loads transmit data to thr one character at a time. the thr empty flag (lsr bit-5) is set when the data byte is transferred to tsr. thr flag can generate a tr ansmit empty interrupt (isr bit-1) when it is enabled by ier bit-1. the tsr flag (lsr bit-6) is set when tsr beco mes completely empty. 2.10.3 transmitter operation in fifo mode the host may fill the transmit fifo with up to 16 bytes of transmit data. t he thr empty flag (lsr bit-5) is set whenever the fifo is empty. the thr empty flag can ge nerate a transmit empty interrupt (isr bit-1) when the amount of data in the fifo falls below its programmed tr igger level. the transmit em pty interrupt is enabled by ier bit-1. the transmitter empty flag (lsr bit-6) is set when both the tsr and the fifo become empty. 2.11 receiver the receiver section contains an 8-bit receive shift register (rsr) and 16 bytes of fifo which includes a byte-wide receive holding register ( rhr). the rsr uses the 16x clock for ti ming. on the risi ng edge of rxd (or falling edge of rx) of a start or a false start bit, an internal receiver counter starts counting at the 16x clock rate. after 8 clocks the start bit period should be at the center of the start bit. at this time the start bit is sampled and if it is still low it is validated as a start bit. evaluating the start bit in this manner prevents the receiver from assembling a false character. each of the data, parity and stop bits is sampled at the middle of the bit to prevent false framing. if there were any error(s), they are reported in the lsr register bits 2-4. upon unloading the receive data byte from rhr, the receive fifo pointer is bumped and the error tags are immediately updated to reflect the status of the data byte in rhr register. rhr can generate a receive data ready interrupt f igure 6. t ransmitter o peration in non -fifo m ode f igure 7. t ransmitter o peration in fifo and f low c ontrol m ode transmit holding register (thr) transmit shift register (tsr) data byte l s b m s b thr interrupt (isr bit-1) enabled by ier bit-1 txnofifo1 16x clock transmit data shift register (tsr) transmit data byte transmit fifo 16x clock auto cts flow control (cts# pin) auto software flow control flow control characters (xoff1,2 and xon1,2 reg.) txfifo1 thr interrupt (isr bit-1): fifo is enabled by fcr bit-0=1 - when the tx fifo falls below the programmed trigger level, and - when the tx fifo becomes empty. xr19l210 11 rev. 1.0.1 single channel integrated uart and rs-232 transceiver upon receiving a character or delay until it reaches the fifo trigger level. furthermore, data delivery to the host is guaranteed by a receive data ready time-out in terrupt when data is not received for 4 word lengths as defined by lcr[1:0] plus 12 bits time. this is equiva lent to 3.7-4.6 character times. the rhr interrupt is enabled by ier bit-0. 2.11.1 receive holding register (rhr) - read-only the receive holding register is an 8-bit register that holds a receive data byte from the receive shift register. it provides the receive data interface to the host processor. the rhr register is part of the receive fifo of 16 bytes by 11-bits wide, the 3 extra bits are fo r the 3 error tags to be reported in lsr register. when the fifo is enabled by fcr bit-0, the rhr contains th e first data character received by the fifo. after the rhr is read, the next character byte is loaded into the rhr and the errors associated with the current data byte are immediately updated in the lsr bits 2-4. f igure 8. r eceiver o peration in non -fifo m ode f igure 9. r eceiver o peration in fifo and a uto rts f low c ontrol m ode receive data shift register (rsr) receive data byte and errors rhr interrupt (isr bit-2) receive data holding register (rhr) rxfifo1 16x clock receive data characters data bit validation error tags in lsr bits 4:2 receive data shift register (rsr) rxfifo1 16x clock error tags (16-sets) error tags in lsr bits 4:2 16 bytes by 11-bit wide fifo receive data characters fifo trigger=8 example : rx fifo trigger level selected at 8 bytes data fills to 14 data falls to 4 data bit validation receive data fifo receive data receive data byte and errors rhr interrupt (isr bit-2) programmed for desired fifo trigger level. fifo is enabled by fcr bit-0=1 rts# de-asserts when data fills above the flow control trigger level to suspend remote transmitter. enable by efr bit-6=1, mcr bit-1. rts# re-asserts when data falls below the flow control trigger level to restart remote transmitter. enable by efr bit-6=1, mcr bit-1. xr19l210 12 single channel integrated uart and rs-232 transceiver rev. 1.0.1 2.12 auto rts (hardware) flow control automatic rts hardware flow control is used to prevent data overrun to the local receiver fifo. the rts output is used to request remote unit to suspend/r esume data transmission. the auto rts flow control features is enabled to fit specific application requirement (see figure 10 ): ? enable auto rts flow control using efr bit-6. ? the auto rts function must be started by asserting rts output pin (mcr bit-1 to logic 1 after it is enabled). if using the auto rts interrupt: ? enable rts interrupt through ier bit-6 (after setting efr bit-4). the uart issues an interrupt when the rts pin makes a transition from low to high: isr bit-5 will be set to logic 1. 2.13 auto rts hysteresis the l210 has a new feature that provid es flow control trigge r hysteresis while maintaining compatibility with the st16c550 uart. with the auto rts function enabled, an interrupt is generated when the receive fifo reaches the programmed rx trigger le vel. the rts pin will not be de-assert ed until the rece ive fifo reaches one trigger level above the programmed trigger level in the trigger table ( table 8 ). the rts pin will be re- asserted after the rx fifo is unloaded to one trigger le vel lower than the programmed trigger level. this is described in figure 10 . under the above descri bed conditions, the l210 will contin ue to accept data until the receive fifo gets full. the auto rts function is initiated when the rts output pin is asserted. 2.14 auto cts flow control automatic cts flow control is used to prevent data ov errun to the remote receiver fifo. the cts input is monitored to suspend/restart the local transmitter. the aut o cts flow control feature is selected to fit specific application requirement (see figure 10 ): ? enable auto cts flow control using efr bit-7. if using the auto cts interrupt: ? enable cts interrupt through ier bit-7 (after setting efr bit-4). the uart issues an interrupt when the cts pin is de-asserted: isr bit-5 will be set to 1, and uart will suspend transmission as soon as the stop bit of the character in process is shifted out. transmission is resumed after the cts input is re-asserted, indicating more data may be sent. xr19l210 13 rev. 1.0.1 single channel integrated uart and rs-232 transceiver 2.15 auto xon/xoff (software) flow control when software flow control is enabled ( see table 10 ), the l210 compares one or two sequential receive data characters with the programmed xon or xoff-1,2 character value(s). if receive character(s) (rx) match the programmed values, the l210 will halt transmission (tx) as soon as the current char acter has completed transmission. when a match occurs, the xoff (if enabled vi a ier bit-5) flag will be set and the interrupt output pin will be activated. following a suspen sion due to a ma tch of the xoff character, the l210 will monitor the receive data stream for a match to the xon-1,2 character. if a match is found, the l210 will resume operation and clear the flags (isr bit-4). reset initially sets the contents of the xon/xoff 8-bit flow control registers to a logic 0. following reset the user can write any xon/xoff value desired for software flow c ontrol. different conditions can be set to detect xon/ xoff characters ( see table 10 ) and suspend/resume transmissions. when double 8-bit xon/xoff characters are selected, the l210 compares two consecutive receiv e characters with two software flow control 8-bit values (xon1, xon2, xoff1, xoff2) and controls tx tran smissions accordingly. under the above described flow f igure 10. a uto rts and cts f low c ontrol o peration the signals shown in this figure are the signals at the uart and not at the rs-232 transceiver. the local uart (uarta) starts data transfer by asserting rtsa# (1). rtsa# is normally connected to ctsb# (2) of remote uart (uartb). ctsb# allows its transmitter to se nd data (3). txb data arrives and fills uarta receive fifo (4). when rxa data fills up to its receive fifo trigger le vel, uarta activates its rxa data ready interrupt (5) and con - tinues to receive and put data into its fifo. if interrupt se rvice latency is long and data is not being unloaded, uarta monitors its receive data fill level to match the upper thre shold of rts delay and de-assert rtsa# (6). ctsb# follows (7) and request uartb transmitter to suspend data transfer. ua rtb stops or finishes sending the data bits in its trans - mit shift register (8). when receive fifo data in uarta is unloaded to match the lower threshold of rts delay (9), uarta re-asserts rtsa# (10), ctsb# recognizes the change (11) and restarts its transmitter and data flow again until next receive fifo trigger (12). this same event applies to the reverse direction when uarta sends data to uartb with rtsb# and ctsa# controlling the data flow. rtsa# ctsb# rxa txb transmitter receiver fifo trigger reached auto rts trigger level auto cts monitor rtsa# txb rxa fifo ctsb# remote uart uartb local uart uarta on off on suspend restart rts high threshold data starts on off on assert rts# to begin transmission 1 2 3 4 5 6 7 receive data rts low threshold 9 10 11 receiver fifo trigger reached auto rts trigger level transmitter auto cts monitor rtsb# ctsa# rxb txa inta (rxa fifo interrupt) rx fifo trigger level rx fifo trigger level 8 12 rtscts1 xr19l210 14 single channel integrated uart and rs-232 transceiver rev. 1.0.1 control mechanisms, flow control charac ters are not placed (stacked) in the user accessible rx data buffer or fifo. in the event that the receive buffer is overfilling and flow control needs to be executed, the l210 automatically sends an xoff message (when enabled) via the serial tx output to the remote modem. the l210 sends the xoff character(s) two-character-times (= time taken to send two characters at the programmed baud rate) after the receive fifo crosses th e programmed trigger level. to clear this condition , the l210 will transmit the programmed xon character(s) as soon as receive fifo is less than one trigger level below the programmed trigger level (see table 8 ). the table below describes this . * after the trigger level is reached, an xoff character is sent afte r a short span of time (= time required to send 2 characters) ; for example, after 2.083ms has elapsed for 9600 baud and 8-bit word length, no parity and 1 stop bit setting. 2.16 special character detect a special character detect feature is provided to detect an 8-bit character when bit-5 is set in the enhanced feature register (efr). when this character (xoff2) is detected, it will be placed in the fi fo along with normal incoming rx data. the l210 compares each incoming receive character with the programmed xoff-2 data. if a match exists, the received data will be transferre d to the rx fifo and isr bit-4 will be set to indicate detection of special character. although the internal register table show s xon, xoff registers with eight bits of character information, the actual number of bits is dependent on the programmed word length. line control register (lcr) bits 0-1 defines the number of character bits, i.e., either 5 bits, 6 bits, 7 bits, or 8 bits. the word length selected by lcr bits 0-1 also de termines the number of bits that will be used for the special character comparison. bit-0 in the xon, xoff registers corr esponds with the lsb bit for the receive character. 2.17 sleep modes and power-save feature with wake-up interrupt there are three levels of power management integrated in the l210. the device is low power with low operational and standby supply curren ts. in the partial sleep mode, the in ternal oscillator of the uart or charge pump of the rs-232 transceiver is turned off to reduce the power consumption. in the full sleep mode, both the oscillator and the charge pump are tu rned off. the power-save mode provides additional power saving by isolating the uart address, data and control signals during sleep mode to minimize the power consumption. 2.17.1 partial sleep mode there are two different partial sleep modes. in the first mode, the uart is in sleep mode and the rs-232 transceiver is active. in the other mo de, the uart is active but the charge pump of the rs-232 transceiver is turned off. 2.17.1.1 uart in sleep mode, rs-232 transceiver active if the acp pin is low, then the char ge pump for the rs-232 transceiver will always be active. but the uart portion in the l210 can still en ter sleep mode if all of th ese conditions are satisfied: no interrupts pending (isr bit-0 = 1) the 16-bit divisor programmed in dlm and dll registers is a non-zero value sleep mode is enabled (ier bit-4 = 1) modem inputs are not toggling (msr bits 0-3 = 0) rxd input pin is idling low t able 4: a uto x on /x off (s oftware ) f low c ontrol rx t rigger l evel int p in a ctivation x off c haracter ( s ) s ent ( characters in rx fifo ) x on c haracter ( s ) s ent ( characters in rx fifo ) 1 1 1* 0 4 4 4* 1 8 8 8* 4 14 14 14* 8 xr19l210 15 rev. 1.0.1 single channel integrated uart and rs-232 transceiver the l210 stops its crystal oscillator to conserve power in this mode. the user can check the xtal2 pin for no clock output as an indication that the device has entered the partial sleep mode. the uart portion in the l210 resumes normal opera tion or active mode by any of the following: a receive data start bit transition on the rxd input (low to high) a data byte is loaded to the transmitter, thr or fifo a change of logic state on any of the modem or general purpose serial inputs: i.e., any of the msr bits 0- 3 shows a ?1? the uart portion in the l210 will retu rn to the sleep mode automatically af ter all interrupting conditions have been serviced and cleared. if the uart portion of th e l210 is awakened by the modem inputs, a read to the msr is required to reset the modem in puts. in any case, the sleep mode will not be entered while an interrupt is pending. the uart portion of the l210 will stay in the sl eep mode of operation until it is disabled by setting ier bit-4 to a logic 0. 2.17.1.2 uart active, charge pump of rs-232 transceiver shut down if the acp pin is high and the uart portion of the l 210 is not in sleep mode, then the charge pump will automatically shut down to conserve power if the following conditions are true: no activity on the txd output signal modem input signals (rx, cts) are low modem inputs have been idle for approximately 30 seconds when these conditions are satisfied, the l210 shuts down the charge pump and tri-states the rs-232 drivers to conserve power. in this mode, the rs-232 receivers are fully active and the internal registers of the l210 can be accessed. the time for the charge pump to resu me normal operation after exiting the sleep mode is typically 45 s. it will wake up by any of the following: a receive data start bit transition on the rxd input (low to high) a data byte is loaded to the transmitter, thr or fifo a low to high transit ion on the cts input because the receivers are fully active when the charge pump is tu rned off, any data rece ived will be transferred to/from the uart without any issues. 2.17.2 full sleep mode in full sleep mode, the uart will be in sleep mode and the charge pump of th e rs-232 transceiver will be shut down. the l210 enters the full sleep mode if the following conditions are satisfied: the uart portion of the l210 is already in sleep mode (no output on xtal2) the acp (autosleep for charge pump) pin is high when these conditions are satisfied, both the uart and the rs-232 transceiver will be in the sleep mode. in this mode, the rs-232 receivers are fully active and th e internal registers of the l210 can be accessed. the l210 exits the full slee p mode if either the acp pin becomes low or the internal oscillator starts up. the time for the charge pump to resume normal operation after exiting the full sleep mode is typically 45 s. xr19l210 16 single channel integrated uart and rs-232 transceiver rev. 1.0.1 2.17.3 power-save feature this mode is in addition to the sleep mode and in this mode, the core logic of the l 210 is isolated from the cpu interface. if the address li nes, data bus lines, iow#, ior# and cs# remain steady when the l210 is in full sleep mode, the maximum current will be in the micr oamp range as specified in the dc electrical characteristics on page 32 . however, if the input lines are floating or are toggling while the l210 is in sleep mode, the current can be up to 100 times more. if not us ing the power-save feature, an external buffer would be required to keep the address and data bus lines from to ggling or floating to achieve the low current. but if the power-save feature is enabled (pwrsave pin c onnected to vcc), this will eliminate the need for an external buffer by internally isolating the address, data and control signals from other bus activities that could cause wasteful power drain (see figure 1 ). the l210 enters power-save mode when this pin is connected to vcc, and the uart portion of the l210 is already in sleep mode. since power-save mode isolates the address, data and control signals, the device will wake-up only by : a receive data start bit transition a change of logic state on any of the modem or general purpose serial inputs: i.e., any of the msr bits 0- 3 shows a ?1? the l210 will return to the power- save mode automatically after a re ad to the msr (t o reset the modem inputs) and all interrupting conditions have been servic ed and cleared. the l210 will stay in the power-save mode of operation until it is disabled by setting ier bit- 4 to a logic 0 and/or the power-save pin is connected to gnd. if the l210 is awakened by any one of the above conditions, it issues an interrupt as soon as the oscillator circuit is up and running and the device is ready to transmit/receive. this interrupt has the same encoding (bit- 0 of isr register = 1) as "no interr upt pending" and will clear when the isr re gister is read. this will show up in the isr register only if no other interrupts are enabled. xr19l210 17 rev. 1.0.1 single channel integrated uart and rs-232 transceiver 2.18 internal loopback the l210 uart provides an intern al loopback capability for system di agnostic purposes . the internal loopback mode is enabled by setting mcr register bit-4 to logi c 1. all regular uart functions operate normally including automatic hardware and software flow control. figure 11 below shows how the internal uart signals are re-configured. transmit data from the transmit shift regi ster output is internally routed to the receive shift register input allowing the system to receive the same data that it was sending. the tx and rts# pins are held high while rx and cts# inputs are ignored. caution: the rx input pin must be held at inactive during loopback test else upon exiting the loopback test the uart may detect and report a false ?break? signal. f igure 11. i nternal l oop b ack tx rx modem / general purpose control logic internal data bus lines and control signals rts# mcr bit-4=1 vcc vcc transmit shift register (thr/fifo) receive shift register (rhr/fifo) cts# op1# rts# cts# dtr# dsr# ri# cd# op2# xr19l210 18 single channel integrated uart and rs-232 transceiver rev. 1.0.1 3.0 uart internal registers the l210 has a set of configuration registers selected by address lines a0, a1 and a2 with cs# asserted. the complete register set is shown on table 5 and table 6 . t able 5: uart internal registers a ddresses a2 a1 a0 r egister r ead /w rite c omments 16c550 c ompatible r egisters 0 0 0 rhr - receive holding register thr - transmit holding register read-only write-only lcr[7] = 0 0 0 0 dll - divisor latch low byte read/write lcr[7] = 1 0 0 1 dlm - divisor latch high byte read/write 0 0 0 drev - device revision code read-only dll = 0x00, dlm = 0x00 and lcr[7] = 1 0 0 1 dvid - device identification code read-only 0 0 1 ier - interrupt enable register read/write lcr[7] = 0 0 1 0 isr - interrupt status register fcr - fifo control register read-only write-only lcr 0xbf 0 1 1 lcr - line control register read/write 1 0 0 mcr - modem control register read/write lcr 0xbf 1 0 1 lsr - line status register read-only 1 1 0 msr - modem status register read-only 1 1 1 spr - scratchpad register read/write lcr 0xbf e nhanced r egisters 0 1 0 efr - enhanced function register read/write lcr = 0xbf 1 0 0 xon-1 - xon character 1 write 1 0 1 xon-2 - xon character 2 write 1 1 0 xoff-1 - xoff character 1 write 1 1 1 xoff-2 - xoff character 2 write xr19l210 19 rev. 1.0.1 single channel integrated uart and rs-232 transceiver . t able 6: internal registers description. s haded bits are enabled when efr b it -4=1 a ddress a2-a0 r eg n ame r ead / w rite b it -7 b it -6 b it -5 b it -4 b it -3 b it -2 b it -1 b it -0 c omment 16c550 compatible registers 0 0 0 rhr rd bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 lcr[7]=0 0 0 0 thr wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 0 0 1 ier rd/wr 0/ 0/ 0/ 0/ modem stat. int. enable rx line stat. int. enable tx empty int enable rx data int. enable cts int. enable rts int. enable xoff int. enable sleep mode enable 0 1 0 isr rd fifos enabled fifos enabled 0/ 0/ int source bit-3 int source bit-2 int source bit-1 int source bit-0 lcr 0xbf int source bit-5 int source bit-4 0 1 0 fcr wr rx fifo trigger rx fifo trigger 0/ 0/ dma mode enable tx fifo reset rx fifo reset fifos enable tx fifo trigger tx fifo trigger 0 1 1 lcr rd/wr divisor enable set tx break set par - ity even parity parity enable stop bits word length bit-1 word length bit-0 1 0 0 mcr rd/wr 0/ 0 0/ internal loop - back enable int out - put enable (op2#) (op1#) rts output control dtr# output control lcr 0xbf brg pres - caler xonany 1 0 1 lsr rd rx fifo global error thr & tsr empty thr empty rx break rx fram - ing error rx parity error rx over - run error rx data ready 1 1 0 msr rd cd input ri input dsr input cts input delta cd delta ri delta dsr delta cts 1 1 1 spr rd/wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 lcr 0xbf baud rate generator divisor 0 0 0 dll rd/wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 lcr[7]=1 0 0 1 dlm rd/wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 0 0 0 drev rd bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 lcr[7]=1 dll=0x00 dlm=0x00 0 0 1 dvid rd 0 0 0 0 0 0 0 1 xr19l210 20 single channel integrated uart and rs-232 transceiver rev. 1.0.1 4.0 internal register descriptions 4.1 receive holding register (rhr) - read- only see ?receiver? on page 10. 4.2 transmit holding register (thr) - write-only see ?transmitter? on page 9. 4.3 baud rate generator divisors (dll and dlm) - read/write the baud rate generator (brg) is a 16-bit counter that generates the data rate for the transmitter. the rate is programmed through registers dll and dlm which are only accessible when lcr bit-7 is set to ?1?. see ?programmable baud rate generator? on page 8. for more details. 4.4 interrupt enable register (ier) - read/write the interrupt enable register (ier) masks the interrupts from receive data ready, transmit empty, line status and modem status registers. these interrupts are r eported in the interrupt status register (isr). 4.4.1 ier versus receive fifo interrupt mode operation when the receive fifo (fcr bit-0 = 1) and receive inte rrupts (ier bit-0 = 1) are enabled, the rhr interrupts (see isr bits 2 and 3) status will reflect the following: a. the receive data available interrupts are issued to the host when the fifo has reached the programmed trigger level. it will be cleared when the fifo drops below the programmed trigger level. b. fifo level will be reflected in the isr register when the fifo trigger level is reached. both the isr register status bit and the interrupt will be cleared wh en the fifo drops below the trigger level. c. the receive data ready bit (lsr bit-0) is set as soon as a character is transferred from the shift register to the receive fifo. it is rese t when the fifo is empty. enhanced registers 0 1 0 efr rd/wr auto cts enable auto rts enable special char select enable ier [7:4], isr [5:4], fcr[5:4], mcr[7:5], mcr[2] soft- ware flow cntl bit-3 soft - ware flow cntl bit-2 soft - ware flow cntl bit-1 soft - ware flow cntl bit-0 lcr=0 x bf 1 0 0 xon1 wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 1 0 1 xon2 wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 1 1 0 xoff1 wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 1 1 1 xoff2 wr bit-7 bit-6 bit-5 bit-4 bit-3 bit-2 bit-1 bit-0 t able 6: internal registers description. s haded bits are enabled when efr b it -4=1 a ddress a2-a0 r eg n ame r ead / w rite b it -7 b it -6 b it -5 b it -4 b it -3 b it -2 b it -1 b it -0 c omment xr19l210 21 rev. 1.0.1 single channel integrated uart and rs-232 transceiver 4.4.2 ier versus receive/transmit fifo polled mode operation when fcr bit-0 equals a logic 1 for fifo enable; rese tting ier bits 0-3 enables the xr19l210 in the fifo polled mode of operation. since the receiver and transmitter have separate bits in the lsr either or both can be used in the polled mode by selecting respective transmit or receive control bit(s). a. lsr bit-0 indicates there is data in rhr or rx fifo. b. lsr bit-1 indicates an overrun error has occurred and that data in the fifo may not be valid. c. lsr bit 2-4 provides the type of receive data erro rs encountered for the data byte in rhr, if any. d. lsr bit-5 indicates thr is empty. e. lsr bit-6 indicates when both the transmit fifo and tsr are empty. f. lsr bit-7 indicates a data error in at least one character in the rx fifo. ier[0]: rhr interrupt enable the receive data ready interrupt will be issued when rhr has a data characte r in the non-fifo mode or when the receive fifo has reached the programmed trigger level in the fifo mode. ? logic 0 = disable the receive data ready interrupt (default). ? logic 1 = enable the receiver data ready interrupt. ier[1]: thr interrupt enable this bit enables the transmit ready interrupt which is issued whenever the thr becomes empty in the non- fifo mode or when data in the fifo fa lls below the programmed trigger level in the fifo mode. if the thr is empty when this bit is enabled , an interrupt will be generated. ? logic 0 = disable transmit ready interrupt (default). ? logic 1 = enable transmit ready interrupt. ier[2]: receive line status interrupt enable if any of the lsr register bits 1, 2, 3 or 4 is a logic 1, it will generate an interrupt to inform the host controller about the error status of the current data byte in fifo. lsr bit-1 generates an interrupt immediately when the character has been received. lsr bits 2-4 generate an in terrupt when the character with errors is read out of the fifo. ? logic 0 = disable the receiver line status interrupt (default). ? logic 1 = enable the receiver line status interrupt. ier[3]: modem status interrupt enable ? logic 0 = disable the modem status register interrupt (default). ? logic 1 = enable the modem status register interrupt. ier[4]: sleep mode enable (requires efr bit-4 = 1) ? logic 0 = disable sleep mode (default). ? logic 1 = enable sleep mode. see sleep mode section for further details. ier[5]: xoff interrupt enable (requires efr bit-4=1) ? logic 0 = disable the software flow cont rol, receive xoff interrupt (default). ? logic 1 = enable the software flow control, receive xoff interrupt. see software flow control section for details. ier[6]: rts output interrupt enable (requires efr bit-4=1) ? logic 0 = disable the rts interrupt (default). ? logic 1 = enable the rts interrupt. the uart issues an interrupt when the rts pin makes a transition from low to high. xr19l210 22 single channel integrated uart and rs-232 transceiver rev. 1.0.1 ier[7]: cts input interrupt enable (requires efr bit-4=1) ? logic 0 = disable the cts interrupt (default). ? logic 1 = enable the cts interrupt. the uart issues an interrupt when cts pin makes a transition from low to high. 4.5 interrupt status register (isr) - read-only the uart provides multiple levels of prioritized interrupts to minimize external software interaction. the interrupt status register (isr) provides the user with six interrupt status bits. performing a read cycle on the isr will give the user the current hi ghest pending interrupt le vel to be serviced, others are queued up to be serviced next. no other interrupts are acknowledged until the pending interrupt is serviced. the interrupt source table, table 7 , shows the data values (bit 0-5) for the interrupt priority levels and the interrupt sources associated with each of these interrupt levels. 4.5.1 interrupt generation: ? lsr is by any of the lsr bits 1, 2, 3 and 4. ? rxrdy is by rx trigger level. ? rxrdy time-out is by a 4-char plus 12 bits delay timer. ? txrdy is by tx trigger level or tx fifo empty. ? msr is by any of the msr bits 0, 1, 2 and 3. ? receive xoff/special character is by det ection of a xoff or special character. ? cts is when the cts pin is de-asserted during auto cts flow control enabled by efr bit-7. ? rts is when the rts pin is de-asserted during auto rts flow control enabled by efr bit-6. ? wake-up interrupt is when the device wakes up from sleep mode. see sleep mode section for more details. 4.5.2 interrupt clearing: ? lsr interrupt is cleared by reading the lsr register (but fifo error bit does not clear until the character(s) that generated the interrupt(s) is (are) read from the fifo). ? rxrdy interrupt is cleared by reading data until fifo falls be low the trigger level. ? rxrdy time-out interrupt is clea red by reading the rhr register. ? txrdy interrupt is cleared by reading the is r register or writing to the thr register. ? msr interrupt is cleared by reading the msr register. ? xoff interrupt is cleared by reading the is r or when xon character(s) is received. ? special character interrupt is cleared by reading the isr or after the next character is received. ? rts and cts flow control interrupts ar e cleared by reading the msr register. ? wake-up interrupt is cleared by reading the isr register. xr19l210 23 rev. 1.0.1 single channel integrated uart and rs-232 transceiver ] isr[0]: interrupt status ? logic 0 = an interrupt is pending and the isr contents ma y be used as a pointer to the appropriate interrupt service routine. ? logic 1 = no interrupt pending (default condition) or wa ke-up interrupt. the wake-up interrupt is issued when the l210 has been awakened from sleep mode. isr[3:1]: interrupt status these bits indicate the source for a pending interrupt at interrupt priority leve ls (see interrupt source table 7 ). isr[4]: xoff/xon or special character interrupt status this bit is enabled when efr bit-4 is set to a logic 1. is r bit-4 indicates that the receiver detected a data match of the xoff character(s). if this is an xoff/xon interrupt, it can be cleared by a read to the isr. if it is a special character interr upt, it can be cleared by reading isr or it will automatically clear after the next character is received. isr[5]: rts#/cts# interrupt status this bit is enabled when efr bit-4 is set to a logic 1. isr bit-5 indicates that the cts# or rts# has been de- asserted. isr[7:6]: fifo enable status these bits are set to a logic 0 when the fifos are disa bled. they are set to a logic 1 when the fifos are enabled. 4.6 fifo control register (fcr) - write-only this register is used to enable the fifos, clear the fifos, set the transm it/receive fifo trigger levels, and select the dma mode. the dma, and fifo modes are defined as follows: fcr[0]: tx and rx fifo enable ? logic 0 = disable the transmit and receive fifo (default). ? logic 1 = enable the transmit and receive fifos. this bit must be set to logic 1 when other fcr bits are written or they will not be programmed. fcr[1]: rx fifo reset this bit is only active when fcr bit-0 is a ?1?. ? logic 0 = no receive fifo reset (default) ? logic 1 = reset the receive fifo pointers and fifo le vel counter logic (the rece ive shift register is not cleared or altered). this bit will return to a logic 0 after resetting the fifo. t able 7: i nterrupt s ource and p riority l evel p riority isr r egister s tatus b its s ource of interrupt l evel b it -5 b it -4 b it -3 b it -2 b it -1 b it -0 1 0 0 0 1 1 0 lsr (receiver line status register) 2 0 0 1 1 0 0 rxrdy (receive data time-out) 3 0 0 0 1 0 0 rxrdy (received data ready) 4 0 0 0 0 1 0 txrdy (transmit ready) 5 0 0 0 0 0 0 msr (modem status register) 6 0 1 0 0 0 0 rxrdy (received xoff or special character) 7 1 0 0 0 0 0 cts, rts change of state - 0 0 0 0 0 1 none (default) or wake-up interrupt xr19l210 24 single channel integrated uart and rs-232 transceiver rev. 1.0.1 fcr[2]: tx fifo reset this bit is only active when fcr bit-0 is a ?1?. ? logic 0 = no transmit fifo reset (default). ? logic 1 = reset the transmit fifo pointers and fifo le vel counter logic (the transmit shift register is not cleared or altered). this bit will return to a logic 0 after resetting the fifo. fcr[3]: dma mode select (legacy) this bit has no function and should be left at ?0?. fcr[5:4]: transmit fifo trigger select (?00? = default, tx trigger level = 1) these 2 bits set the trigger level for the transmit fifo. the uart will issue a transmit interrupt when the number of characters in the fifo falls below the selected trigger level, or when it gets empty in case that the fifo did not get filled over the trigger level on last re-load. table 8 below shows the selections. efr bit-4 must be set to ?1? before these bits can be accessed. fcr[7:6]: receive fifo trigger select (?00? = default, rx trigger level =1) these 2 bits are used to se t the trigger level for the receive fifo. th e uart will issue a rece ive interrupt when the number of the characters in the fifo crosses the trigger level. table 8 shows the selections. 4.7 line control register (lcr) - read/write the line control register is used to specify the asynchronous data communication format. the word or character length, the number of stop bits, and the parity are selected by writing the appropriate bits in this register. lcr[1:0]: tx and rx word length select these two bits specify the word length to be transmitted or received. t able 8: t ransmit and r eceive fifo t rigger l evel s election fcr b it -7 fcr b it -6 fcr b it -5 fcr bit -4 r eceive t rigger l evel t ransmit t rigger l evel c ompatibility 0 0 1 1 0 1 0 1 1 (default) 4 8 14 16l580 and 16c580 compatible. 0 0 1 1 0 1 0 1 1 (default) 4 8 14 16l580, 16c550, 16c580, 16c554, 16c2550 and 16c2552 compatible bit-1 bit-0 w ord length 0 0 5 (default) 0 1 6 1 0 7 1 1 8 xr19l210 25 rev. 1.0.1 single channel integrated uart and rs-232 transceiver lcr[2]: tx and rx stop-bit length select the length of stop bit is specified by this bi t in conjunction with the programmed word length. lcr[3]: tx and rx parity select parity or no parity can be selected via this bit. the pa rity bit is a simple way used in communications for data integrity check. see table 9 for parity selection summary below. ? logic 0 = no parity. ? logic 1 = a parity bit is generated duri ng the transmission while the receiver checks for parity error of the data character received. lcr[4]: tx and rx parity select if the parity bit is enabled with lcr bit-3 set to a logi c 1, lcr bit-4 selects the even or odd parity format. ? logic 0 = odd parity is generated by forcing an odd number of logic 1?s in the transmitted character. the receiver must be programmed to check the same format (default). ? logic 1 = even parity is gen erated by forcing an even numb er of logic 1?s in the tr ansmitted character. the receiver must be programmed to check the same format. lcr[5]: tx and rx parity select if the parity bit is enabled, lcr bit- 5 selects the forced parity format. ? lcr bit-5 = logic 0, parity is not forced (default). ? lcr bit-5 = logic 1 and lcr bit-4 = logic 0, parity bit is forced to a logical 1 for the transmit and receive data. ? lcr bit-5 = logic 1 and lcr bit-4 = logic 1, parity bit is forced to a logical 0 for the transmit and receive data. bit-2 w ord length s top bit length (b it time ( s )) 0 5,6,7,8 1 (default) 1 5 1-1/2 1 6,7,8 2 t able 9: p arity selection lcr b it -5 lcr b it -4 lcr b it -3 p arity selection x x 0 no parity 0 0 1 odd parity 0 1 1 even parity 1 0 1 force parity to mark, ?1? 1 1 1 forced parity to space, ?0? xr19l210 26 single channel integrated uart and rs-232 transceiver rev. 1.0.1 lcr[6]: transmit break enable when enabled, the break control bit causes a break cond ition to be transmitted (the tx output is forced low). this condition remains, until disabled by setting lcr bit-6 to a logic 0. ? logic 0 = no tx break condition (default). ? logic 1 = forces the transmitter output (tx) low for al erting the remote receiver of a line break condition. lcr[7]: baud rate divisors enable baud rate generator divisor (dll/dlm) enable. ? logic 0 = data registers are selected (default). ? logic 1 = divisor latch registers are selected. 4.8 modem control register (mcr) or general purpose outputs control - read/write the mcr register is used for contro lling the serial/modem interface signal s or general pur pose inputs/outputs. mcr[0]: dtr# output the dtr# output is not available as an output on this device. but for 16 c550 compatibility, it can still be used in internal lo opback mode. ? logic 0 = force dtr output high (default). ? logic 1 = force dtr output low. mcr[1]: rts output the rts pin is a modem control output and may be used for automatic hardware flow control by enabled by efr bit-6. if the modem interface is not used, this output may be used as a general purpose output. ? logic 0 = force rts output high (default). ? logic 1 = force rts output low. mcr[2]: op1# (legacy term) the op1# output is not available on the xr19l210, however, it is available in internal loopback. in the internal loopback mode, this bit controls the state of the m odem input ri bit in the msr register as shown in figure 11 . ? logic 0 = op1# is high (default). ? logic 1 = op1# is low. in the internal loopback mode, this bit controls the st ate of the modem input ri bit in the msr register as shown in figure 11 . mcr[3]: int output enable or op2# (legacy term) this bit enables and disables the operation of interrupt ou tput, int in the intel mode. if int output is not used, op2# can be used as a general purpose output in the intel mode. in the motorola mode, th is bit must be set to logic 0 . ? logic 0 = int output disabled (three state mode) in intel mode (default). ? logic 1 = int output enabled (active mode) in intel mode. in the internal loopback mode, this bit functions like the op2# in the 16c550 and is used to set the state of the modem input cd bit in the msr register. mcr[4]: internal loopback enable ? logic 0 = disable loopback mode (default). ? logic 1 = enable local loopback mode, see loopback section and figure 11 . xr19l210 27 rev. 1.0.1 single channel integrated uart and rs-232 transceiver mcr[5]: xon-any enable ? logic 0 = disable xon-any function (for 16c550 compat ibility, default). ? logic 1 = enable xon-any function. in this mode, any rx character re ceived will resume transmit operation. the rx character will be loaded into the rx fifo, unless the rx characte r is an xon or xo ff character and the l210 is programmed to use the xon/xoff flow control. mcr[6]: reserved for proper functionality, this bit should be set to a logic 0. mcr[7]: brg clock prescaler select ? logic 0 = divide by one. the input clock from the crystal or external clock is fed directly to the programmable baud rate generator without further modification, i.e., divide by one (default). ? logic 1 = divide by four. the prescaler divides the input clock from the crystal or external clock by four and feeds it to the programmable baud rate generator, hence, data rates get reduced 4 times. 4.9 line status register (lsr) - read only this register provides the status of data transfers between the uart and the host. lsr[0]: receive data ready indicator ? logic 0 = no data in receive holding register or fifo (default). ? logic 1 = data has been received and is save d in the receive holding register or fifo. lsr[1]: receiver overrun flag ? logic 0 = no overrun error (default). ? logic 1 = overrun error. a data overrun error condition occurred in the receive shift register. this happens when additional data arrives while the fi fo is full. in this case the previous data in the receive shift register is overwritten. note that under this condition the data byte in the receive shift register is not transferred into the fifo, therefore the data in the fifo is not corrupted by the error. lsr[2]: receive data parity error flag ? logic 0 = no parity error (default). ? logic 1 = parity error. the receive character in rhr does not have correct parity information and is suspect. this error is associated with the char acter available for reading in rhr. lsr[3]: receive data framing error flag ? logic 0 = no framing error (default). ? logic 1 = framing error. the receive character did not hav e a valid stop bit(s). this error is associated with the character available for reading in rhr. lsr[4]: receive break flag ? logic 0 = no break condition (default). ? logic 1 = the receiver received a break signal (rx wa s low for at least one char acter frame time). in the fifo mode, only one break character is loaded into the fifo. the break indication remains until the rx input returns to the idle condition. lsr[5]: transmit holding register empty flag this bit is the transmit holding register empty indicator. the thr bit is set to a logic 1 when the last data byte is transferred from the transmit holding register to th e transmit shift register. t he bit is reset to logic 0 concurrently with the data loading to the transmit holding r egister by the host. in the fifo mode this bit is set when the transmit fifo is empty, it is cleared when the transmit fifo contains at least 1 byte. lsr[6]: thr and tsr empty flag this bit is set to a logic 1 whenever the transmitter goes idle. it is set to logic 0 whenever either the thr or tsr contains a data character. in the fifo mode this bi t is set to a logic 1 whenever the transmit fifo and transmit shift register are both empty. xr19l210 28 single channel integrated uart and rs-232 transceiver rev. 1.0.1 lsr[7]: receive fifo data error flag ? logic 0 = no fifo error (default). ? logic 1 = a global indicator for the sum of all error bits in the rx fifo. at least one parity error, framing error or break indication is in the fifo data. this bit clears when there is no more error(s) in any of the bytes in the rx fifo. 4.10 modem status register (msr) - read only this register provides the current st ate of the modem interface input signals . in the normal mode of operation, only the cts input pin will change. however, all of th e modem inputs can be cont rolled in internal loopback mode. lower four bits of this register are used to in dicate the changed information. these bits are set to a logic 1 whenever a signal from the modem changes state. t msr[0]: delta cts input flag ? logic 0 = no change on cts input (default). ? logic 1 = the cts input has changed state since the last time it was monitored. a modem status interrupt will be generated if msr interrup t is enabled (ier bit-3). msr[1]: delta dsr input flag ? logic 0 = no change on dsr input (default). ? logic 1 = the dsr input has changed state since the last time it was monitored. a modem status interrupt will be generated if msr interrup t is enabled (ier bit-3). msr[2]: delta ri input flag ? logic 0 = no change on ri input (default). ? logic 1 = the ri input has changed from low to hi gh, ending of the ringing signal. a modem status interrupt will be ge nerated if msr in terrupt is enabled (ier bit-3). msr[3]: delta cd input flag ? logic 0 = no change on cd input (default). ? logic 1 = indicates that the cd input has changed state si nce the last time it was monitored. a modem status interrupt will be ge nerated if msr in terrupt is enabled (ier bit-3). msr[4]: cts input status cts pin may function as automatic hardware flow control si gnal input if it is enabled and selected by auto cts (efr bit-7). auto cts flow control allows starting and stopping of local data transmissions based on the modem cts signal. a high on the ct s pin will stop uart transmitter as soon as the curr ent character has finished transmission, and a low will re sume data transmission. normally ms r bit-4 bit is the complement of the cts input. however in t he loopback mode, this bit is equivalent to the rts bit in the mcr register. the cts input may be used as a general purpose input when the modem interface is not used. msr[5]: dsr input status normally this bit is the complement of the dsr input. in the loopback mode, this bit is equivalent to the dtr bit in the mcr register. the dsr input may be used as a general purpose input when the modem interface is not used. msr[6]: ri input status normally this bit is the complement of the ri input. in the loopback mode this bit is equivalent to bit-2 in the mcr register. the ri input may be used as a general purpose input when the modem interface is not used. msr[7]: cd input status normally this bit is the complement of the cd input. in th e loopback mode this bit is equivalent to bit-3 in the mcr register. the cd input may be used as a general purpose input when the modem interface is not used. 4.11 scratchpad register (spr) - read/write this is a 8-bit general purpose register for the user to store temporary data. the co ntent of this register is preserved during sleep mode but becomes 0xff (default) after a reset or a power off-on cycle. xr19l210 29 rev. 1.0.1 single channel integrated uart and rs-232 transceiver 4.12 baud rate generator registers (dll and dlm) - read/write the concatenation of the contents of dlm and dll gives the 16-bit divisor value which is used to calculate the baud rate: ? baud rate = (clock frequency / 16) / divisor see mcr bit-7 and the baud rate table also. 4.13 device identification register (dvid) - read only this register contains the device id (0x01 for xr19l210). prior to reading this register, dll and dlm should be set to 0x00. 4.14 device revision register (drev) - read only this register contains the device revision information. for example, 0x01 means revision a. prior to reading this register, dll and dlm should be set to 0x00. 4.15 enhanced feature register (efr) enhanced features are enabled or disabled using this register. bit 0-3 provide si ngle or dual consecutive character software flow control selection (see table 10 ). when the xon1 and xon2 and xoff1 and xoff2 modes are selected, the double 8-bit words are concatenated in to two sequential characters. caution: note that whenever changing the tx or rx flow control bits, always reset all bits back to logic 0 (disable) before programming a new setting. efr[3:0]: software flow control select single character and dual sequential characters software flow control is supported. combinations of software flow control can be selected by programming these bits. t able 10: s oftware f low c ontrol f unctions efr bit -3 c ont -3 efr bit -2 c ont -2 efr bit -1 c ont -1 efr bit -0 c ont -0 t ransmit and r eceive s oftware f low c ontrol 0 0 0 0 no tx and rx flow control (default and reset) 0 0 x x no transmit flow control 1 0 x x transmit xon1, xoff1 0 1 x x transmit xon2, xoff2 1 1 x x transmit xon1 and xon2, xoff1 and xoff2 x x 0 0 no receive flow control x x 1 0 receiver compares xon1, xoff1 x x 0 1 receiver compares xon2, xoff2 1 0 1 1 transmit xon1, xoff1 receiver compares xon1 or xon2, xoff1 or xoff2 0 1 1 1 transmit xon2, xoff2 receiver compares xon1 or xon2, xoff1 or xoff2 1 1 1 1 transmit xon1 and xon2, xoff1 and xoff2, receiver compares xon1 and xon2, xoff1 and xoff2 0 0 1 1 no transmit flow control, receiver compares xon1 and xon2, xoff1 and xoff2 xr19l210 30 single channel integrated uart and rs-232 transceiver rev. 1.0.1 efr[4]: enhanced function bits enable enhanced function control bit. this bit enables ier bits 4- 7, isr bits 4-5, fcr bits 4- 5, mcr bits 2, 5, 6 and 7 to be modified. after modifying any enhanced bits, efr bit-4 can be set to a logic 0 to latch the new values. this feature prevents legacy software from altering or overwriting the enhanced functions once set. normally, it is recommended to leave it enabled, logic 1. ? logic 0 = modification disable/latch en hanced features. ier bits 4-7, isr bits 4-5, fcr bits 4-5, and mcr bits 2, 5-7 are saved to retain the user settings. after a reset, the ier bits 4-7, isr bits 4-5, fcr bits 4-5, and mcr bits 2, 5-7 are set to a logic 0 to be compatible with st16c550 mode (default). ? logic 1 = enables the above-mentioned regist er bits to be modified by the user. efr[5]: special character detect enable ? logic 0 = special character detect disabled (default). ? logic 1 = special character detect enabled. the ua rt compares each incoming receive character with data in xoff-2 register. if a match exists, the receive data will be transfer red to fifo and isr bit-4 will be set to indicate detection of the special character. bit-0 co rresponds with the lsb bit of the receive character. if flow control is set for comparing xon1, xo ff1 (efr [1:0]= ?10?) then flow control and special character work normally. however, if flow control is set for comparing xon2, xoff2 (efr[1:0]= ?01?) then flow control works normally, but xoff2 will not go to the fifo, and will g enerate an xoff interrupt and a special character interrupt, if enabled via ier bit-5. efr[6]: auto rts flow control enable rts output may be used for hardware flow control by se tting efr bit-6 to logic 1. wh en auto rts is selected, an interrupt will be ge nerated when the receive fi fo is filled to the progra mmed trigger level and rts de- asserts (high) at one trigger leve l above the programmed trigger level. rts will be re-asserted low when fifo data falls below one trigger le vel below the programmed trigger level. the rts output must be asserted (logic 0) before the auto rts can take effect. rts pin will function as a gen eral purpose output when hardware flow control is disabled. ? logic 0 = automatic rts flow control is disabled (default). ? logic 1 = enable automatic rts flow control. efr[7]: auto cts flow control enable automatic cts flow control. ? logic 0 = automatic cts flow control is disabled (default). ? logic 1 = enable automatic cts flow control. data transmission stops when cts input de-asserts high. data transmission resumes wh en cts is asserted low. 4.16 software flow control registers (xoff1, xoff2, xon1, xon2) - write only these registers are used as the prog rammable software flow control characters xoff1, xoff2, xon1, and xon2. for more details, refer to ?section 2.15, auto xon/xoff (software) flow control? on page 13 . xr19l210 31 rev. 1.0.1 single channel integrated uart and rs-232 transceiver t able 11: uart reset conditions for channel a and b registers reset state dlm and dll bits 15-0 = 0x0001. resets upon power up only and not when only the reset pin is asserted. rhr bits 7-0 = 0xxx thr bits 7-0 = 0xxx ier bits 7-0 = 0x00 fcr bits 7-0 = 0x00 isr bits 7-0 = 0x01 lcr bits 7-0 = 0x00 mcr bits 7-0 = 0x00 lsr bits 7-0 = 0x60 msr bits 3-0 = logic 0 bits 7-4 = logic levels of the inputs inverted spr bits 7-0 = 0xff efr bits 7-0 = 0x00 xon1 bits 7-0 = 0x00 xon2 bits 7-0 = 0x00 xoff1 bits 7-0 = 0x00 xoff2 bits 7-0 = 0x00 i/o signals reset state tx rs-232 low or +5v rts rs-232 low or +5v int three-state condition absolute maximum ratings power supply range 7 volts voltage at any pin gnd-0.3 v to 7 v operating temperature -40 o to +85 o c storage temperature -65 o to +150 o c package dissipation 500 mw typical package thermal resistance data ( margin of error: 15% ) thermal resistance (40-qfn) theta-ja = 40 o c/w, theta-jc = 13 o c/w xr19l210 32 single channel integrated uart and rs-232 transceiver rev. 1.0.1 e lectrical c haracteristics u nless otherwise noted : ta= - 40 to + 85 ( industrial grade ), v cc = 3.0 - 5.5v symbol p arameter 3.3v l imits m in m ax 5.0v l imits m in m ax u nits c onditions dc c haracteristics i cc supply current, normal mode 30 35 ma vcc=3.0v to 5.5v, t a =+25c, no load i slp supply current, partial sleep mode (uart sleep, transceiver active) 28 32 ma vcc=3.0v to 5.5v, t a =+25c, no load i slp supply current, partial sleep mode (uart active, transceiver sleep) 2 3 ma vcc=3.0v to 5.5v, t a =+25c, no load i slp /i pws supply current, full sleep mode (uart sleep, transceiver sleep) 20 40 ua vcc=3.0v to 5.5v, t a =+25c, no load, all inputs are idle o scillator i nput (x1) v ilck clock input low level -0.3 0.6 -0.5 0.6 v v ihck clock input high level 2.4 v cc 3.0 v cc v l ogic i nputs /o utputs (d[0:7], a[0:2], ior#, iow#/rw#, cs#, int/irq#, rst#/rst, i/m#, p wr s ave , acp) v il input low voltage -0.3 0.8 -0.5 0.8 v v ih input high voltage 2.0 5.5 2.2 5.5 v v ol output low voltage 0.4 0.4 v i ol = 6 ma i ol = 4 ma v oh output high voltage 2.0 2.4 v i ol = -6 ma i ol = -1 ma i il input low leakage current 10 10 ua inputs with no pull-up resistor i hl input high leakage current 10 10 ua inputs with no pull-down resistor rs-232 i nputs (r xd , c ts ) input voltage range 15 15 v v ihr input threshold low 0.6 0.8 v ta=+25c v ilr input threshold high 2.0 2.4 v ta=+25c v hys input hysteresis 0.5 0.5 v r tr input transmition resistance 3 7 3 7 k ohm ta=+25c rs-232 o utputs (t xd , r ts ) output voltage range 5.0 6.5 5.0 6.5 v 3k ohm load on all transmitter outputs r or output resistance 300 300 ohm vcc=0v, transmitter output=+/-2v i os output short-circuit current 60 60 ma rs-232 ac t iming (txd) maximum data rate 250 250 kbps r l =3kohm, cl=1000pf transmitter slew rate 30 30 v/us c l = 50pf to 2500pf, rl=3-7kohm xr19l210 33 rev. 1.0.1 single channel integrated uart and rs-232 transceiver ac electrical characteristics unless otherwise noted: ta=0 o to 70 o c (-40 o to +85 o c for industrial grade package ), vcc=3.0 - 5.5v, 50 pf load where applicable s ymbol p arameter l imits 3.3 m in m ax l imits 5.0 m in m ax u nit - crystal frequency 20 24 mhz osc external clock frequency 33 50 mhz clk external clock low/high time 15 10 ns t as address setup time (16 mode) 5 10 ns t ah address hold time (16 mode) 0 0 ns t cs chip select width (16 mode) 50 30 ns t rd ior# strobe width (16 mode) 50 30 ns t dy read cycle delay (16 mode) 50 30 ns t rdv data access time (16 mode) 50 25 ns t dd data disable time (16 mode) 0 20 0 20 ns t wr iow# strobe width (16 mode) 50 30 ns t dy write cycle delay (16 mode) 50 30 ns t ds data setup time (16 mode) 15 12 ns t dh data hold time (16 mode) 3 5 ns t ads address setup (68 mode) 5 10 ns t adh address hold (68 mode) 0 0 ns t rws r/w# setup to cs# (68 mode) 10 10 ns t rda read data access (68 mode) 50 25 ns t rdh read data disable time (68 mode) 20 20 ns t wds write data setup (68 mode) 15 12 ns t wdh write data hold (68 mode) 3 5 ns t rwh cs# de-asserted to r/w# de-asserted (68 mode) 10 10 ns t csl cs# width (68 mode) 50 30 ns t csd cs# cycle delay (68 mode) 50 30 ns t wdo delay from iow# to output 75 50 ns t mod delay to set interrupt from modem input 75 50 ns t rsi delay to reset interrupt from ior# 75 50 ns t ssi delay from stop to set interrupt 1 1 bclk xr19l210 34 single channel integrated uart and rs-232 transceiver rev. 1.0.1 t rri delay from ior# to reset interrupt 75 50 ns t si delay from stop to interrupt 75 50 ns t int delay from initial int reset to transmit start 8 24 8 24 bclk t wri delay from iow# to reset interrupt 75 50 ns t rst reset pulse width 40 40 ns n baud rate divisor 1 2 16 -1 1 2 16 -1 - bclk baud clock 16x of data rate hz f igure 12. c lock t iming ac electrical characteristics unless otherwise noted: ta=0 o to 70 o c (-40 o to +85 o c for industrial grade package ), vcc=3.0 - 5.5v, 50 pf load where applicable s ymbol p arameter l imits 3.3 m in m ax l imits 5.0 m in m ax u nit osc clk clk external clock xr19l210 35 rev. 1.0.1 single channel integrated uart and rs-232 transceiver f igure 13. m odem i nput /o utput t iming iow# rts# dtr# cd# cts# dsr# int ior# ri# t wdo t mod t mod t rsi t mod activ e change of state change of state activ e activ e activ e change of state change of state change of state activ e activ e xr19l210 36 single channel integrated uart and rs-232 transceiver rev. 1.0.1 f igure 14. 16 m ode (i ntel ) d ata b us r ead t iming f igure 15. 16 m ode (i ntel ) d ata b us w rite t iming t as t dd t ah t rd t rdv t dy t dd t rdv t ah t as t cs valid address valid address valid data valid data a0- a2 cs# ior# d0-d7 rdtm t cs t rd 16write t as t dh t ah t wr t ds t dy t dh t ds t ah t as t cs valid address valid address valid data valid data a0- a2 cs# iow# d0-d7 t cs t wr xr19l210 37 rev. 1.0.1 single channel integrated uart and rs-232 transceiver f igure 16. 68 m ode (m otorola ) d ata b us r ead t iming f igure 17. 68 m ode (m otorola ) d ata b us w rite t iming 68read t ads t rdh t adh t csl t rda t csd t rws valid address valid address valid data a0-a2 cs# r/w# d0-d7 t rwh valid data 68write t ads t adh t csl t wds t csd t rws valid address valid address valid data a0-a2 cs# r/w# d0-d7 t rwh valid data t wdh xr19l210 38 single channel integrated uart and rs-232 transceiver rev. 1.0.1 f igure 18. r eceive r eady i nterrupt t iming [n on -fifo m ode ] f igure 19. t ransmit r eady i nterrupt t iming [n on -fifo m ode ] rx int d0:d7 start bit d0:d7 stop bit d0:d7 1 byte in rhr 1 byte in rhr 1 byte in rhr rxnfm t ssr t ssr t ssr ior# t rr t rr t rr (reading data out of rhr) tx int* d0:d7 start bit d0:d7 stop bit d0:d7 txnonfifo t wri t wri t wri t srt t srt t srt *int is cleared when the isr is read or when data is loaded into the thr. isr is read isr is read isr is read (unloading) ier[1] enabled iow# (loading data into thr) xr19l210 39 rev. 1.0.1 single channel integrated uart and rs-232 transceiver f igure 20. r eceive r eady i nterrupt t iming [fifo m ode ] f igure 21. t ransmit r eady i nterrupt t iming [fifo m ode ] rx int d0:d7 s t ssr rxintdma# rx fifo fills up to rx trigger level or rx data timeout rx fifo drops below rx trigger level d0:d7 s d0:d7 t d0:d7 s d0:d7 s t d0:d7 s t t d0:d7 s t start bit stop bit t ssi ior# t rri (reading data out of rx fifo) tx int* tx int d0:d7 s d0:d7 t d0:d7 s d0:d7 s t d0:d7 s t t d0:d7 s t start bit stop bit t wri last data byte transmitted tx fifo fills up to trigger level tx fifo drops below trigger level tx fifo empty t t s t si isr is read ier[1] enabled isr is read iow# (loading data into fifo) *int is cleared when the isr is read or when tx fifo fills up to the trigger level. xr19l210 40 single channel integrated uart and rs-232 transceiver rev. 1.0.1 package dimensions (40 pin qfn - 6 x 6 x 0.9 mm ) note: the control dimension is in millimeter. inches millimeters symbol min max min max a 0.031 0.039 0.80 1.00 a1 0.000 0.002 0.00 0.05 a3 0.006 0.010 0.15 0.25 d 0.232 0.240 5.90 6.10 d2 0.189 0.197 4.80 5.00 b 0.007 0.012 0.18 0.30 e 0.0197 bsc 0.50 bsc l 0.014 0.018 0.35 0.45 k 0.008 - 0.20 - note: the actual center pad is metallic and the size (d2) is device-dependent with a typical tolerance of 0.3mm 41 notice exar corporation reserves the right to make changes to the products contained in this publicat ion in order to improve design, performanc e or reliability. exar corp oration assumes no responsibility for the use of any circuits described herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent in fringement. charts and sc hedules contained here in are only for illustration purposes and may vary depending upon a user?s specific application. while the information in this publication has been carefully ch ecked; no responsibility, however , is assumed for inaccuracies. exar corporation does not re commend the use of any of its products in life suppo rt applications where the failure or malfunction of the product can reasonably be ex pected to cause failure of the life support system or to significantly affect its safety or effectiveness. products ar e not authorized for use in such applications unless exar corporation receives , in writing, assurances to its satisfaction that: (a) the ri sk of injury or damage has been minimized; (b) the us er assumes all such risks; (c) potential liability of exar corporation is adequately protected under the circumstances. copyright 2007 exar corporation datasheet may 2007. send your uart technical inquiry with technical details to hotline: uarttechsupport@exar.com . reproduction, in part or whole, without the prior written consent of exar co rporation is prohibited. xr19l210 rev. 1.0.1 single channel integrated uart and rs-232 transceiver d ate r evision d escription january 2006 p1.0.0 preliminary datasheet march 2006 p1.0.1 clarified partial sleep mode and full sleep mode descriptions. ordering part number changed to xr19l210il 40 april 2006 p1.0.2 removed "wireless portable devices" from list of applications since the xr19l210 does not have infrared mode. october 2006 1.0.0 final datasheet. updated dc electrical characteristics. may 2007 1.0.1 updated the qfn package drawing and added the parameter "k". xr19l210 i single channel integrated uart and rs-232 transceiver rev. 1.0.1 table of contents general description ......... ................ ................ ................. .............. .............. .......... 1 a pplications ............................................................................................................................... ................ 1 f eatures ............................................................................................................................... ..................... 1 f igure 1. b lock d iagram ............................................................................................................................... .............................. 1 f igure 2. p in o ut of the d evice ............................................................................................................................... ................... 2 ordering information ............................................................................................................................... . 2 pin descriptions ......... ................ ................ ................. ................ ................. ............ 3 1.0 product description........................................................................................................ ............... 5 2.0 functional descriptions.................................................................................................... ........... 6 2.1 cpu interface.............................................................................................................. ................................... 6 f igure 3. xr19l210 t ypical i ntel /m otorola d ata b us i nterconnections ............................................................................. 6 2.2 5-volt tolerant inputs ..................................................................................................... ......................... 7 2.3 device hardware reset . .............. .............. .............. .............. ............ ........... ........... ........... ....................... 7 2.4 device identification and revi sion........... .............. .............. .............. .............. ........... ........... ............... 7 2.5 internal registers..... .............. .............. .............. .............. ........... ........... ........... ........... ............................. 7 2.6 dma mode................................................................................................................... ....................................... 7 2.7 int (irq#) output .......................................................................................................... .................................. 7 t able 1: int (irq#) p in o peration for t ransmitter ................................................................................................................. 7 t able 2: int (irq#) p in o peration f or r eceiver ...................................................................................................................... 8 2.8 crystal or external clock input ............................................................................................ ............ 8 f igure 4. t ypical c rystal c onnections ............................................................................................................................... ...... 8 2.9 programmable baud rate generator ............. .............. .............. .............. .............. ............ ......... ..... 8 f igure 5. b aud r ate g enerator and p rescaler ....................................................................................................................... 9 t able 3: t ypical data rates with a 14.7456 mh z crystal or external clock ........................................................................ 9 2.10 transmitter ............................................................................................................... ................................... 9 2.10.1 transmit holding register (thr) - write only ............................................................................ ............... 9 2.10.2 transmitter operation in non-fifo mode .................................................................................. ................ 10 f igure 6. t ransmitter o peration in non -fifo m ode .............................................................................................................. 10 2.10.3 transmitter operation in fifo mode ...................................................................................... ..................... 10 f igure 7. t ransmitter o peration in fifo and f low c ontrol m ode ..................................................................................... 10 2.11 receiver .................................................................................................................. ..................................... 10 2.11.1 receive holding register (rhr) - read-only .............................................................................. .............. 11 f igure 8. r eceiver o peration in non -fifo m ode .................................................................................................................... 11 f igure 9. r eceiver o peration in fifo and a uto rts f low c ontrol m ode ......................................................................... 11 2.12 auto rts (hardware) flow control . .............. .............. .............. .............. ............ ........... ......... ...... 12 2.13 auto rts hysteresis...................................................................................................... ......................... 12 2.14 auto cts flow control .................................................................................................... .................... 12 f igure 10. a uto rts and cts f low c ontrol o peration ....................................................................................................... 13 2.15 auto xon/xoff (software) flow control.................................................................................... . 13 t able 4: a uto x on /x off (s oftware ) f low c ontrol ............................................................................................................... 14 2.16 special character detect ...... .............. .............. .............. .............. .............. ............ ......... ................. 14 2.17 sleep modes and power-save feature with w ake-up interrupt .............. ........... ............... 14 2.17.1 partial sleep mode...................................................................................................... ....................................... 14 2.17.1.1 uart in sleep mode , rs-232 transceiver active ......................................................................................... 14 2.17.1.2 uart active , charge pump of rs-232 transceiver shut down .................................................................. 15 2.17.2 full sleep mode ......................................................................................................... .......................................... 15 2.17.3 power-save feature ...................................................................................................... .................................... 16 2.18 internal loopback ..... .............. .............. .............. .............. ........... ........... ........... .......... ......................... 17 f igure 11. i nternal l oop b ack ............................................................................................................................... .................. 17 3.0 uart internal registers .................................................................................................... ......... 18 t able 5: uart internal registers ................................................................................................... ................................. 18 t able 6: internal registers description. s haded bits are enabled when efr b it -4=1 .......................................... 19 4.0 internal register descriptions............................................................................................. .. 20 4.1 receive holding register (rhr) - read- only ........... .............. .............. .............. .............. ............. .. 20 4.2 transmit holding register (thr) - write-only ............................................................................... 20 4.3 baud rate generator diviso rs (dll and dlm) - read/write ........ .............. .............. ........... ....... 20 4.4 interrupt enable register (ier) - read/write.......... .............. .............. .............. .............. ............. .. 20 4.4.1 ier versus receive fifo interrupt mode operation ......................................................................... ...... 20 4.4.2 ier versus receive/transmit fifo polled mode operation .................................................................. 21 xr19l210 ii rev. 1.0.1 single channel integrated uart and rs-232 transceiver 4.5 interrupt status register (isr) - read-only ......... .............. .............. .............. ............... .............. .. 22 4.5.1 interrupt generation: .................................................................................................... .................................... 22 4.5.2 interrupt clearing: ...................................................................................................... ....................................... 22 t able 7: i nterrupt s ource and p riority l evel ....................................................................................................................... 23 4.6 fifo control register (fcr) - write-only ................................................................................... ..... 23 t able 8: t ransmit and r eceive fifo t rigger l evel s election .............................................................................................. 24 4.7 line control register (lcr) - read/write ................................................................................... ..... 24 t able 9: p arity selection .............................................................................................................................. ............................ 25 4.8 modem control register (m cr) or general purpose outp uts control - read/write . 26 4.9 line status register (lsr) - read only..................................................................................... ......... 27 4.10 modem status register (msr) - read only ................................................................................... .. 28 4.11 scratchpad register (spr) - read /write ............... .............. .............. .............. ............... ............ .... 28 4.12 baud rate generator registers (dll and dlm) - read/write.......... ........... ............ ........... ..... 29 4.13 device identification register (d vid) - read only....................................................................... 2 9 4.14 device revision register (drev) - read only... ............................................................................ .. 29 4.15 enhanced feature register (efr ) ............. .............. .............. .............. .............. ............ ......... .......... 29 t able 10: s oftware f low c ontrol f unctions ........................................................................................................................ 29 4.16 software flow control registers (xoff1, xoff2, xon1, xon2) - write only................... 30 t able 11: uart reset conditions for channel a and b ................................................................................ ............ 31 absolute maximum ratings ......... ................. ................ .............. .............. ........... 31 typical package thermal resistance data (margin of error: 15%) 31 ac e lectrical c haracteristics ............................................................................................................. 33 f igure 12. c lock t iming ............................................................................................................................... .............................. 34 f igure 13. m odem i nput /o utput t iming ............................................................................................................................... ..... 35 f igure 14. 16 m ode (i ntel ) d ata b us r ead t iming ................................................................................................................... 36 f igure 15. 16 m ode (i ntel ) d ata b us w rite t iming ................................................................................................................. 36 f igure 16. 68 m ode (m otorola ) d ata b us r ead t iming .......................................................................................................... 37 f igure 17. 68 m ode (m otorola ) d ata b us w rite t iming ......................................................................................................... 37 f igure 18. r eceive r eady i nterrupt t iming [n on -fifo m ode ] ............................................................................................... 38 f igure 19. t ransmit r eady i nterrupt t iming [n on -fifo m ode ] ............................................................................................. 38 f igure 20. r eceive r eady i nterrupt t iming [fifo m ode ] ....................................................................................................... 39 f igure 21. t ransmit r eady i nterrupt t iming [fifo m ode ] ..................................................................................................... 39 package dimensions (40 pin qfn - 6 x 6 x 0.9 mm )................. ................ ............. 40 table of contents .......... ................ ................. ................ .............. .............. .............. i |
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