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MT90840

Preliminary Information

2-268

Figure 21 - Serial Port Timing for 4.096 Mbps Operation - TM2 (SFDi = 0) and TM3

STo0-7

SPCKo
(4.096 MHz)

STi0-7

F0o output

bit 7, ch. 0

bit 6, ch. 0

bit 7, ch. 0

STo0-7

SPCKo
(4.096 MHz)

STi0-7

F0o output

bit7, ch. 0

(8 kHz)

(8 kHz)

F0 Frame Sync with Negative Polarity (SPFP = 0)

F0 Frame Sync with Positive Polarity (SPFP = 1)

t

clkh

t

clk

t

clkl

t

stis

t

stih

t

sod

t

clkh

t

clk

t

clkl

t

sod

bit 0, ch. 63

bit 7, ch. 0

bit 6, ch. 0

t

stis

t

stih

t

t

t

t

bit 0, ch. 63

t

df

t

df

t

df

t

df

Summary of Contents for MT90840

Page 1: ...ther devices Diagnostic alarm functions and clock phase status word for clock monitoring IEEE 1149 JTAG boundary scan port Applications Bridging ST BUS MVIP buses to high speed Time Division Multiplex...

Page 2: ...TDI VSS PPFRi VDD AD0 AD1 AD2 AD3 AD4 AD5 AD6 AD7 R W DS RD VDD AS ALE CS DTA RES IC VSS VSS VDD NC STi0 STi1 STi2 STi3 STi4 STi5 STi6 STi7 C4 8R1 C4 8R2 NC F0i o VSS VDD NC CTo3 CTo2 CTo1 CTo0 VSS VD...

Page 3: ...be applied during power up to bring the MT90840 internal circuitry to a defined state Serial and parallel TDM outputs STo0 7 STi0 7 and PDo0 7 are held in high impedance state after reset until progra...

Page 4: ...l port data bytes in the transmit direction and operate at data rates up to 19 44 Mbyte s 42 89 PPFTi o Parallel Port Framing Transmit Bidirectional This signal delineates the start of a new data fram...

Page 5: ...ance For applications with the serial port running at 8 192 Mbps this output is not used and an 8 192 MHz clock source must be supplied at C4 8R1 or C4 8R2 66 73 17 24 STo7 STo0 Serial Output Streams...

Page 6: ...allel Switching PDi to PDo In addition Mitel Message Mode capabilities allow the user to force data on TDM output time slots and to monitor TDM input time slots through the microprocessor port The MT9...

Page 7: ...Ch 63 Bit 1 Ch 63 Bit 0 Ch 0 Bit 7 Ch 0 Bit 6 Ch 0 Bit 5 ch 127 Serial I O 8 Mbps 8 MHz C4 8R1 2 4 MHz b3 ch 127 b2 ch 127 b1 ch 127 b0 ch 0 b7 ch 0 b6 ch 0 b5 ch 0 b4 Frame Boundary Established by P...

Page 8: ...Path Data Memory to the serial outputs This path is controlled by the contents of the Rx Path Connection Memory The Rx Path Connection Memory is programmed for each output time slot with the address...

Page 9: ...mode is balanced in that there are always 8 inputs and 8 outputs during a time slot If a specific time slot in an output stream e g STo0 channel7 is programmed in the Rx Path Connection Memory as an i...

Page 10: ...isrupted Parallel Data Port The MT90840 parallel port is composed of an 8 bit wide Parallel Data Output Port PDo0 7 a 4 bit wide Control output port CTo0 3 an 8 bit wide Parallel Data Input Port PDi0...

Page 11: ...g from PDi to PDo The TM1 0 bits in the TIM Register are used to select the timing modes The PFDI and SFDI bits in the same register can be used to enable parallel device sub modes of TM1 and TM2 resp...

Page 12: ...t available for operation at 6 48 Mbyte s Timing Mode 2 TM2 Ring Slave Asynchronous Parallel Port With ST BUS Clock Slave Timing Mode 2 is used where the main TDM clock reference resides on the parall...

Page 13: ...XPAA interrupt source At 8 192 MHz the generated clock is input to the MT90840 at C4 8R1 or C4 8R2 and is also supplied directly to the serial bus the SPCKo output is not used at 8 192 MHz The serial...

Page 14: ...e synchronized and both aligned with PPFRi A fixed offset exists between F0o and PPFRi due to serial to parallel conversion The MT90840 will align F0o so that it proceeds PPFRi by 3 8 sec In TM3 the i...

Page 15: ...put Enable and Message Mode On the serial port the per channel features are Output Enable Message Mode and Direction Control These functions are generally available in all of the data rates and timing...

Page 16: ...Dmin 7 7 sec Note 1 D Dmin 1 frame Po Si 132 7 sec Po Si Min 7 7 sec Avg 133 sec Max 258 sec TM1P S All Dmin ELDmin 4 4 sec Note 2 D 1 frame ELD So Pi 125 sec ELD So Pi Min 4 4 sec Max 379 sec TM2 P S...

Page 17: ...l is controlled by the DC bit in the appropriate byte of the Receive Path Connection Memory High RPCM High When DC is HIGH the matching channel is an output The per channel direction control feature o...

Page 18: ...address in the RPCM CPU accesses require the LSB of the CAR Register and the 7 LSBs of the address bus When the DC bit for a specific output channel is LOW that channel is output on the STi pin rather...

Page 19: ...ss in the TPDM CPU reads require the 2 LSBs of the CAR Register and the 7 LSBs of the address bus The source channel address value written in the TPCM requires 9 bits Figure 14b shows how the Receive...

Page 20: ...any internal memory access is performed In the MT90840 the AD7 address pin must be kept LOW when addressing the internal registers as depicted in Table 2 When input address pin AD7 is HIGH input addr...

Page 21: ...pins hold valid read data Numerous reads within the same memory page can be performed without having to re write the Control Register CPU reads of the Data and Connection memories must be multiplexed...

Page 22: ...d verify address 0 after a block of TPCM writes If address 0 is corrupted one of the writes occurred during a clock correction Clock Quality and TM2 RPCM Access Integrity In Timing Mode 2 the serial f...

Page 23: ...s asserted during block programming a framing error has occurred and the block programming should be repeated Timing Mode Initialization On system power up the CPU should program the MT90840 IMS GPM a...

Page 24: ...y scan operation and normal chip operation Boundary Scan Instruction Register In accordance with the IEEE 1149 1 standard the MT90840 uses public instructions listed in Table 3 Instruction Register Th...

Page 25: ...l zeros into the scan path register will set all outputs to tristate outputs disabled Please visit our web site at www semicon mitel com to download a BSDL file for the MT90840 Cells Definition Note 1...

Page 26: ...MHz serial port reference clock to be taken from input pin C4 8R1 If LOW the reference is taken from input pin C4 8R2 default TCP Parallel Port Transmit Clock Polarity To allow the MT90840 parallel p...

Page 27: ...MSKn is set HIGH the corresponding interrupt source is enabled and the IRQ pin will respond to that interrupt source if set LOW the corresponding interrupt source is masked When masked an interrupt so...

Page 28: ...input address lines or TPCM address bits used to select the time slot 2 Mbps Balanced 8i x 8o 256 channels HA7 AD6 AD5 AB7 AB5 AD4 AD0 AB4 AB0 32 time slots 2 Mbps Add Drop 16 i o 512 channels HA8 HA...

Page 29: ...nnel In all timing modes except TM4 only bit AB8 is used along with bits AB0 7 in TPCM Low to select one of 512 serial source channels from the serial port side to be transmitted on this output channe...

Page 30: ...ts or inputs or any mixed combination If DC is LOW this serial port channel is defined as input If DC is HIGH this channel is defined as output Note that the CPU still has to set OE to enable the outp...

Page 31: ...and give the user access to the payload of the high speed frame The MT90840 provides an 8 bit bidirectional parallel data port which directly interfaces to a high speed framer parallel data interface...

Page 32: ...Current at Digital Outputs IO 40 mA 4 Storage Temperature TS 65 150 C 5 Package Power Dissipation PD 2 W Recommended Operating Conditions Voltages are with respect to ground VSS unless otherwise stat...

Page 33: ...19 44 MHz 60 40 duty cycle clock at PCKR C4 8R1 input with min 115 ns semi cycle 3 C4 8 Input Clock Width LOW 4 096 MHz 2 048 4 096 Mbps 8 192 MHz 8 192 Mbps SPCKo Output Clock Width LOW from internal...

Page 34: ...bps STi Input Setup Time from C4 8 input edge in TM1 2 048 and 4 096 Mbps STi Input Setup Time from C4 8 input edge at 8 192 Mbps STi o0 3 tstis 28 41 0 0 ns ns ns SPCKo CL 30pF SPCKo CL 150pF TM1 and...

Page 35: ...ch 31 tstih tstis tclkh Serial Port with Negative Polarity F0 ST BUS tsod tfrh tfrs tclk tclkl tT STo0 7 C4 8R1 4 096 MHz STi0 7 tstis tstih F0i input tfrs tfrh tfrw bit 7 ch 0 bit 6 ch 0 bit 7 ch 0...

Page 36: ...stis tstih F0o output bit 7 ch 0 bit 6 ch 0 bit 7 ch 0 bit 0 ch 31 bit 0 ch 31 Serial Port with Positive Polarity F0 GCI tdf 8 kHz tdf tt tclkh tclkl tclk SPCKo tT STi0 7 STo0 7 4 096 MHz bit 7 ch 0 b...

Page 37: ...ch 0 bit 7 ch 0 STo0 7 C4 8R1 4 096 MHz STi0 7 F0i input bit 7 ch 0 8 kHz 8 kHz Serial Port with Negative Polarity F0 ST BUS Serial Port with Positive Polarity F0 GCI tt tclkh tclk tclkl tstis tstih...

Page 38: ...i0 7 F0o output bit 7 ch 0 bit 6 ch 0 bit 7 ch 0 STo0 7 SPCKo 4 096 MHz STi0 7 F0o output bit7 ch 0 8 kHz 8 kHz F0 Frame Sync with Negative Polarity SPFP 0 F0 Frame Sync with Positive Polarity SPFP 1...

Page 39: ...ates STo0 7 C4 8R1 8 192 MHz STi0 7 F0i input bit 0 ch 127 bit 7 ch 0 bit 6 ch 0 bit 7 8 kHz Note Polarity of F0i is automatically detected in TM1 tstis tstih tfrs tfrh tfrw tsod tt tclkh tclk tclkl E...

Page 40: ...P 1 tstis tstih tdf tdf tsod tt tclkh tclk tclkl STo0 7 C4 8R1 8 192 MHz STi0 7 F0o output bit 7 ch 0 bit 6 ch 0 bit 7 8 kHz Frame Sync with Negative Polarity SPFP 0 tstis tstih tdf tdf tsod tt tclkh...

Page 41: ...m 1 byte m byte m 1 CTo corresponding to byte m CTo corresponding to byte m 1 PCKT PCKR tcdf TCP 0 tcdf CTo corresponding to byte m CTo corresponding to byte m 1 byte 0 tsod PDo0 7 byte 1 tPPFH PCKT P...

Page 42: ...50pF 6 CTo0 3 output delay from PCKR PCKT transmit edge tcdf 26 28 ns CL 30pF CL 50pF 7 PDo delay from Active to High Z tza 26 ns CL 30pF RL 1K 8 PDo delay from High Z to Active taz 28 ns CL 30pF RL...

Page 43: ...FP HIGH If PPFP is LOW the PPFT line will have negative pulse polarity tdf tdf PCKT C4 8R1 or C4 8R2 PPFTo tpv ST BUS Mode tpv PDo7 0 0 n n 1 1 2 n 2 Note The MT90840 will correct phase relation in TM...

Page 44: ...after RD WR tcsrw 0 ns 7 CS setup from RD tcsr 0 ns 8 Data hold after RD tdhr 10 15 22 30 ns ns CL 30 pF CL 150 pF 9 WR delay after ALE falling talwr 15 ns 10 CS setup from WR tcsw 0 ns 11 Data setup...

Page 45: ...275 Figure 32 Intel National Multiplexed Bus Timing ALE AD0 AD7 CS RD WR DTA talw tads tadh DATA ADDRESS talrd tcsrw tdhr tdhw tcsw talwr takd tddr takh 2 0V 0 8V 2 0V 0 8V 2 0V 0 8V 2 0V 0 8V 2 0V 0...

Page 46: ...ng tcsh 0 ns 6 CS setup from DS rising tcss 0 ns 7 Data setup on write tdsw 10 8 Data hold after write tdhw 0 ns 9 DS Inactive to AS Falling Edge tdss 23 ns 10 R W setup from DS rising trws 5 ns 11 R...

Page 47: ...ure 33 Motorola Multiplexed Bus Timing CS DTA AD0 13 RD DS R W AS ADDRESS ADDRESS DATA DATA trwh trws tasw tdsh tads tadh tdhw tdhr tcss tcsh takd takh tddr 2 0V 0 8V 2 0V 0 8V 2 0V 0 8V 2 0V 0 8V 2 0...

Page 48: ...0 ns 2 TCK period width LOW ttclkl 40 ns 3 TCK period width HIGH ttclkh 40 ns 4 TDI setup time to TCK rising tdisu 2 ns 5 TDI hold time after TCK rising tdih 33 ns 6 TMS setup time to TCK rising tmssu...

Page 49: ...erning dimensions are in millimeters 3 Dimensions in inches are not exact 4 For D E add for allowable Mold Protrusion 0 010 50 1 80 30 81 100 31 51 Pin 1 indicator E b e L L1 Notes 1 Not to scale 2 Go...

Page 50: ...MT90840 Preliminary Information 2 280 Notes...

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