PM5366-PI PMC-Sierra, Inc., PM5366-PI Datasheet

no-image

PM5366-PI

Manufacturer Part Number
PM5366-PI
Description
HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER
Manufacturer
PMC-Sierra, Inc.
Datasheet

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
PM5366-PI
Manufacturer:
PMC
Quantity:
1 831
PM5366 TEMAP-84
PRELIMINARY
DATASHEET
PMC-2010672
ISSUE 1
HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER
AND M13 MULTIPLEXER
PM5366
TEMAP-84
HIGH DENSITY 84/63 CHANNEL VT/TU
MAPPER AND M13 MULTIPLEXER
DATASHEET
PROPRIETARY AND CONFIDENTIAL
PRELIMINARY
ISSUE 1: APRIL 2001
PMC-Sierra, Inc.
105 - 8555 Baxter Place Burnaby, BC Canada V5A 4V7 604 .415.6000

Related parts for PM5366-PI

PM5366-PI Summary of contents

Page 1

... DATASHEET PMC-2010672 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER PROPRIETARY AND CONFIDENTIAL PMC-Sierra, Inc. ISSUE 1 PM5366 TEMAP-84 DATASHEET PRELIMINARY ISSUE 1: APRIL 2001 105 - 8555 Baxter Place Burnaby, BC Canada V5A 4V7 604 .415.6000 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 2

... T1/E1 PERFORMANCE DATA ACCUMULATION....................... 73 9.6 T1/E1 HDLC RECEIVER............................................................. 73 9.7 T1/E1 RECEIVE AND TRANSMIT DIGITAL JITTER ATTENUATORS .......................................................................... 74 9.8 T1/E1 PSEUDO RANDOM BINARY SEQUENCE GENERATION AND DETECTION (PRBS).......................................................... 79 9.9 DS3 FRAMER (DS3-FRMR) ....................................................... 79 9.10 DS3 BIT ORIENTED CODE DETECTION .................................. 81 PROPRIETARY AND CONFIDENTIAL ISSUE 1 i PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 3

... RECEIVE TRIBUTARY BYTE SYNCHRONOUS DEMAPPER . 102 9.27 DS3 MAPPER DROP SIDE (D3MD) ......................................... 103 9.28 TRANSMIT TRIBUTARY PATH OVERHEAD PROCESSOR (TTOP) ...................................................................................... 106 9.29 TRANSMIT REMOTE ALARM PROCESSOR (TRAP).............. 107 9.30 TRANSMIT TRIBUTARY BIT ASYNCHRONOUS MAPPER (TTMP) ...................................................................................... 108 PROPRIETARY AND CONFIDENTIAL ISSUE 1 ii PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 4

... USING THE INTERNAL DS3 OR E3 DATA LINK RECEIVER .. 164 12.8 T1/E1 LOOPBACK MODES...................................................... 168 12.9 DS3 AND E3 LOOPBACK MODES........................................... 170 12.10 TELECOM BUS MAPPER/DEMAPPER LOOPBACK MODES. 173 12.11 SBI BUS DATA FORMATS ........................................................ 174 PROPRIETARY AND CONFIDENTIAL ISSUE 1 iii PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 5

... SBI ADD BUS INTERFACE TIMING ......................................... 220 14 ABSOLUTE MAXIMUM RATINGS ....................................................... 222 15 D.C. CHARACTERISTICS ................................................................... 223 16 MICROPROCESSOR INTERFACE TIMING CHARACTERISTICS..... 226 17 TEMAP-84 TIMING CHARACTERISTICS ........................................... 230 18 ORDERING AND THERMAL INFORMATION...................................... 252 19 MECHANICAL INFORMATION............................................................ 253 PROPRIETARY AND CONFIDENTIAL ISSUE 1 iv PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 6

... FIGURE 17- CRCE COUNT VS. BER (T1 SF MODE) ................................... 160 FIGURE 18- TYPICAL DATA FRAME............................................................. 167 FIGURE 19- EXAMPLE MULTI-PACKET OPERATIONAL SEQUENCE ........ 167 FIGURE 20- T1/E1 LINE LOOPBACK............................................................ 169 FIGURE 21- T1/E1 DIAGNOSTIC DIGITAL LOOPBACK............................... 170 FIGURE 22- DS3 DIAGNOSTIC LOOPBACK DIAGRAM .............................. 171 PROPRIETARY AND CONFIDENTIAL ISSUE 1 v PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 7

... FIGURE 42- FRAMER MODE DS3 TRANSMIT INPUT STREAM WITH TGAPCLK .................................................................................... 208 FIGURE 43- FRAMER MODE DS3 RECEIVE OUTPUT STREAM................ 209 FIGURE 44- FRAMER MODE DS3 RECEIVE OUTPUT STREAM WITH RGAPCLK.................................................................................... 209 PROPRIETARY AND CONFIDENTIAL ISSUE 1 vi PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 8

... FIGURE 61- SBI ADD BUS JUSTIFICATION REQUEST FUNCTIONAL TIMING ........................................................................................ 220 FIGURE 62- DS3/E3 TRANSMIT INTERFACE TIMING................................. 231 FIGURE 63- DS3/E3 RECEIVE INTERFACE TIMING ................................... 234 FIGURE 64- LINE SIDE TELECOM BUS INPUT TIMING.............................. 237 PROPRIETARY AND CONFIDENTIAL ISSUE 1 vii PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 9

... FIGURE 72- XCLK INPUT TIMING ................................................................ 247 FIGURE 73- TRANSMIT LINE INTERFACE TIMING ..................................... 248 FIGURE 74- REMOTE SERIAL ALARM PORT TIMING ................................ 249 FIGURE 75- JTAG PORT INTERFACE TIMING ............................................ 251 FIGURE 76- 324 PIN PBGA 23X23MM BODY............................................... 253 PROPRIETARY AND CONFIDENTIAL ISSUE 1 viii PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 10

... TABLE 18 - PMON COUNTER SATURATION LIMITS (E1 MODE).............. 157 TABLE 19 - PMON COUNTER SATURATION LIMITS (T1 MODE).............. 157 TABLE 20 - STRUCTURE FOR CARRYING MULTIPLEXED LINKS ........... 176 TABLE 21 - T1/TVT1.5 TRIBUTARY COLUMN NUMBERING...................... 176 PROPRIETARY AND CONFIDENTIAL ISSUE 1 ix PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 11

... TABLE 40 - MICROPROCESSOR INTERFACE READ ACCESS ................ 226 TABLE 41 - MICROPROCESSOR INTERFACE WRITE ACCESS............... 228 TABLE 42 - RSTB TIMING............................................................................ 230 TABLE 43 - DS3/E3 TRANSMIT INTERFACE TIMING................................. 230 TABLE 44 - DS3/E3 RECEIVE INTERFACE TIMING ................................... 234 PROPRIETARY AND CONFIDENTIAL ISSUE 1 x PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 12

... TABLE 55 - TRANSMIT LINE INTERFACE TIMING (FIGURE 73) ............... 248 TABLE 56 - REMOTE SERIAL ALARM PORT TIMING ................................ 249 TABLE 57 - JTAG PORT INTERFACE.......................................................... 250 TABLE 58 - ORDERING INFORMATION...................................................... 252 TABLE 59 - THERMAL INFORMATION – THETA JA VS. AIRFLOW ............ 252 PROPRIETARY AND CONFIDENTIAL ISSUE 1 xi PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 13

... STM-1/VC4. • 2.048 Mbit/s streams multiplexed into three DS3s following the ITU-T G.747 recommendation. Includes the option to asynchronously map the DS3s into three STS-1/STM-0 SPEs. PROPRIETARY AND CONFIDENTIAL ISSUE 1 1 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 14

... Also provides PRBS generators and detectors on each tributary for error testing at 1.544 Mbit/s and 2.048 Mbit/s rates as recommended in ITU-T O.151 and O.152. • Supports the M23 and C-bit parity DS3 formats. PROPRIETARY AND CONFIDENTIAL ISSUE 1 2 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 15

... HDLC interface with 128 bytes of buffering for terminating the facility data link in either the ingress or egress paths, as selected on a per- tributary basis. • Provides Inband Loopback Code detection. PROPRIETARY AND CONFIDENTIAL ISSUE operation. 3 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 16

... N*8 kHz reference. • Provides a digital phase locked loop for generation of a low jitter transmit clock. PROPRIETARY AND CONFIDENTIAL ISSUE 1 4 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER – ...

Page 17

... Allows insertion of all-zeros or all-ones tributary idle code with unequipped indication and valid pointer into any tributary under software control. • Allows software to force the AIS insertion on a per tributary basis. PROPRIETARY AND CONFIDENTIAL ISSUE 1 5 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 18

... STS-1 SPE into T1 streams via an optional elastic store. • Extracts bit asynchronous mapped TU-11 tributary units from an STM- 1/VC4 TUG3 or STM-1/VC3 into T1 streams via an optional elastic store. PROPRIETARY AND CONFIDENTIAL ISSUE 1 6 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 19

... Detection times of 2.23 ms and 13.5 ms are supported. The fast detection time meets the requirement of TR-TSY-000191 Section 5. The longer detection time PROPRIETARY AND CONFIDENTIAL ISSUE 1 7 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER -3 bit error rate. ...

Page 20

... Generates an B3ZS encoded 100… repeating pattern to aid in pulse mask testing. • Inserts far end receive failure (FERF), the DS3 alarm indication signal (AIS) and the idle signal when enabled by internal register bits. PROPRIETARY AND CONFIDENTIAL ISSUE 1 8 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 21

... Allows DS2 alarm indication signal (AIS activated or cleared in the demultiplex direction automatically upon loss of DS3 frame alignment or signal. • Supports C-bit parity DS3 format. PROPRIETARY AND CONFIDENTIAL ISSUE 1 9 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 22

... Performs required inversion of second and fourth multiplexed DS1 streams as required by ANSI T1.107 Section 7.2. • Allows insertion and detection of per DS1 payload loopback requests encoded in the C-bits to be activated under microprocessor control. PROPRIETARY AND CONFIDENTIAL ISSUE 1 10 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 23

... Up to three arbitrary rate data streams inserted into and extracted from the SBI via bit serial ports. • Transparent VT/TU access can be selected only when tributaries are mapped into SONET/SDH. PROPRIETARY AND CONFIDENTIAL ISSUE 1 11 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 24

... Transmit timing is mastered either by the TEMAP- layer 2 device connecting to the SBI bus. Timing mastership is selectable on a per tributary basis, where a tributary is either an individual T1, E1 DS3. PROPRIETARY AND CONFIDENTIAL ISSUE 1 12 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 25

... SONET/SDH Terminal Multiplexers • M23 Based M13 Multiplexer • C-Bit Parity Based M13 Multiplexer • Channelized and Unchannelized DS3 Frame Relay Interfaces • Optical Access Equipment PROPRIETARY AND CONFIDENTIAL ISSUE 1 13 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 26

... Bell Communications Research - Alarm Indication Signal Requirements and Objectives, TR-TSY-000191 Issue 1, May 1986 • Bell Communications Research - Wideband and Broadband Digital Cross- Connect Systems Generic Criteria, TR-NWT-000233, Issue 3, November 1993 PROPRIETARY AND CONFIDENTIAL ISSUE 1 14 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 27

... Functional Requirements for Synchronous Digital Hierarchy (SDH) equipment; Part 1-1: Generic processes and performance,” January, 1996. • ETSI, Generic Functional Requirements for Synchronous Digital Hierarchy (SDH) Equipment, Jan 1996 PROPRIETARY AND CONFIDENTIAL ISSUE 1 15 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 28

... Operating at the Primary Rate and Above, October 1992 • ITU-T Recommendation O.152 – Error Performance Measuring Equipment for Bit Rates of 64 kbit/s and kbit/s, October 1992 PROPRIETARY AND CONFIDENTIAL ISSUE 1 16 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 29

... TTC Standard JT-I431 - ISDN Primary Rate User-Network Interface Layer 1 - Specification, 1995. • Nippon Telegraph and Telephone Corporation - Technical Reference for High- Speed Digital Leased Circuit Services, Third Edition, 1990. PROPRIETARY AND CONFIDENTIAL ISSUE 1 17 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 30

... PRELIMINARY DATASHEET PMC-2010672 4 APPLICATION EXAMPLES PM5366 TEMAP-84 in conjunction with PMC's PM4318 OCTLIU provides a high- density line card for SONET/SDH Add/Drop Multiplexers' as shown in Figure 1. Figure 1 - High-Density Line Card Application PM5313 PM5363 SPECTRA-622 TUPP-622 OC-12 East Card PM5313 PM5363 SPECTRA-622 TUPP-622 OC-12 West Card Figure 2 shows a OC-12 Multi-Service Switch application, whereby PM5366 TEMAP-84 provides VT/TU mapping and Performance Monitoring ...

Page 31

... PROPRIETARY AND CONFIDENTIAL ISSUE 1 SBI PM5366 TEMAP-84 PM7384 FREEDM-84 PM5366 TEMAP-84 PM73122 AAL1gator-32 PM5366 TEMAP-84 PM5366 TEMAP-84 FPG A PM 5366 TEM AP-84 FPG A 19 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER APPI Utopia Packet/Cell Internetworking Function PM7324 S/UNI-ATLAS PM7826 S/UNI-APEX SBI Bus ...

Page 32

... Bandwidth Port responds by asserting EFWBEN coincident with EFWBDAT presenting valid data. The SBI Add bus participates by modulating its SAJUST_REQ output to match the SBI data rate to that required to keep internal FIFOs centered. PROPRIETARY AND CONFIDENTIAL ISSUE 1 20 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 33

... PISO T ransm ux datapath INSBI (byte) TTM P T1/E1 (bit) JAT84 RTDM T1/E1 (bit) JAT84 EXSBI (byte SIPO 21 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Egress Flexible B/W Port EXSBI SBI 155 T1/E1 FRM R84 INSBI Ingress Flexible B/W Port ...

Page 34

... TDP TRAN B3ZS/ DS3/E3 HDB 3 Transm it Fram er FRM R B3ZS/ DS3/ eceive Fram er PMO Perf. M onitor 3X 22 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER TFP O/TMFPO /TG APC LK TFP I APCLK/RSCLK RD ATO RFPO /R MFPO RO VRHD ...

Page 35

... DATASHEET PMC-2010672 6 DESCRIPTION The PM5366 High Density 84/63 Channel VT/TU Mapper and M13 Multiplexer (TEMAP-84 feature-rich device for use in any applications requiring high density link termination over T1 and E1 (G.747) channelized DS3 or T1 and E1 channelized SONET/SDH facilities. The TEMAP-84 supports asynchronous multiplexing and demultiplexing ...

Page 36

... FEAC channels are detected and are available through the microprocessor port. DS3 error event accumulation is also provided by the TEMAP-84. Framing bit errors, line code violations, excessive zeros occurrences, parity errors, C-bit PROPRIETARY AND CONFIDENTIAL ISSUE 1 24 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER -3 bit error rate ...

Page 37

... TI.107) frame formats. The maximum average reframe time is 7ms for DS2. Far end receive failure is detected and M-bit and F-bit errors are accumulated. The DS2 framer is an off-line framer, indicating both OOF and COFA events. Error PROPRIETARY AND CONFIDENTIAL ISSUE 1 25 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 38

... The TEMAP-84 is configured, controlled and monitored via a generic 8-bit microprocessor bus through which all internal registers are accessed. All sources of interrupts can be masked and acknowledged through the microprocessor interface. PROPRIETARY AND CONFIDENTIAL ISSUE 1 26 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 39

... VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS Bottom View 27 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER VSS VSS VSS VSS VSS VSS ...

Page 40

... RFALL bit in the DS3/E3 Master Receive Line Options register. Transmit Clock (TCLK[3:1]). TCLK[3:1] provide V1 timing for circuitry downstream of the DS3 and E3 W3 transmitters of the TEMAP-84. TCLK[3:1] are nominally 44.736 MHz or 34.368 MHz, 50% duty cycle clocks. 28 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 41

... DS3/E3 Master Transmit Line Options register is set. T4 Transmit input clock (TICLK[3:1]). TICLK[3:1] V4 provides the transmit direction timing for the three Y2 DS3s or E3s. TICLK[3:1] are nominally 44.736 MHz or 34.368 MHz, 50% duty cycle clocks. 29 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 42

... RDATO[3:1] are updated on either the falling or rising edge of the associated RGAPCLK or RSCLK, depending on the value of the RSCLKR bit in the DS3 and E3 Master Unchannelized Interface Options register. By default, RDATO[3:1] will be updated on the falling edge of the associated RGAPCLK[3:1] or RSCLK[3:1]. 30 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 43

... ROVRHD[3:1] will be high whenever the data on RDATO[3:1] corresponds to an overhead bit position. ROVRHD[3:1] is updated on the either the falling or rising edge of the associated RSCLK depending on the setting of the RSCLKR bit in the DS3 and E3 Master Unchannelized Interface Options register. 31 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 44

... TGAPCLK[3:1] are held high during the overhead bit positions. This clock is useful for interfacing to devices which source payload data only. TGAPCLK[3:1] are used to sample the associated TDATI[3:1] inputs. 32 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 45

... TFPI/TMFPI[3:1] are sampled on the rising edge of the associated TICLK. TDATI[3:1] can be configured to be sampled on the falling edge of the associated TICLK by setting the TDATIFALL bit the DS3 and E3 Master Unchannelized Interface Options register. 33 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 46

... IFBWDAT input. The IFBWEN[3:1] inputs are constrained such that the maximum data rate of each of IFBWDAT[3:1] is less than 49.72 Mbit/s. IFBWEN[3:1] are sampled on the rising edge of the associated IFBWCLK input. 34 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 47

... In applications where the source data is fixed permissible to hold EFBWDREQ[3:1] high, in which case EFBWEN identifies valid bytes. EFBWDREQ[3:1] are sampled on the rising edge of the associated EFBWCLK input. 35 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 48

... Mbit 2.048Mbit/s tributaries. Recovered Clock 3 (RECVCLK3). This clock output is a recovered and de-jittered clock from any one of the 84 1.544 Mbit 2.048Mbit/s tributaries. 36 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 49

... This clock may be held low if the Telecom Bus interface is unused. This clock is nominally a 19.44 MHz +/-50ppm or 77.76 MHz +/-50ppm clock with a 50% duty cycle. This clock must be phase locked to SREFCLK and can be external connected to SREFCLK. 37 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 50

... When L77 high, LAC1J1V1 is only valid (i.e. identifies the first C1, J1 and V1 of the concatenated STM-4 data stream) if the LSTM[1:0] bits in the Master Bus Configuration register (0x0006) are set to “00”. LAC1J1V1 is updated on the rising edge of LREFCLK. 38 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 51

... LATPL will be low during transport overhead, path overhead, V1 bytes and V2 bytes. To indicate pointer adjustments, LATPL will be asserted appropriately during the V3 byte and following byte for the tributary. LAOE/LATPL is updated on the rising edge of LREFCLK. 39 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 52

... LAOE bit in the TTMP Tributary Control registers. As options, LADP can be driven during transport overhead, for all bytes of an STM-1 when configured for 77.76MHz operation or all the time. LADP is updated on the rising edge of LREFCLK. 40 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 53

... SONET/SDH receive payload data in AB5 byte serial format. LDDATA[7] is the most significant Y3 bit, corresponding to bit 1 of each serial word, the bit Y6 transmitted first. AA5 LDDATA[7:0] is sampled on the rising edge of AB4 LREFCLK. AB3 41 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 54

... LDPL is set high during the H3 byte to indicate a negative pointer justification and low during the byte following H3 to indicate a positive pointer justification event. LDPL is sampled on the rising edge of LREFCLK. 42 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 55

... LDDATA[7:0] that are in AIS state. When this signal is available, the internal pointer processor can be bypassed. LDAIS is invalid when LDTPL is low. LDAIS is only respected for asynchronously mapped tributaries. LDAIS is sampled on the rising edge of LREFCLK. 43 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 56

... The status carried on RADEAST is software selectable to be reported by the RDI, RFI and REI alarms and is selectable to be associated with any tributary on the outgoing data stream LADATA[7:0]. RADEAST is sampled on the rising edge of RADEASTCK. 44 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 57

... The status carried on RADWEST is software selectable to be reported by the RDI, RFI and REI alarms and is selectable to be associated with any tributary on the outgoing data stream LADATA[7:0]. RADWESTFP is sampled on the rising edge of RADWESTCK. 45 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 58

... When the SYSOPT register bits are binary 01 (H-MVIP interface), SREFCLK is required to be 19.44 MHz. When passing transparent virtual tributaries between the telecom bus and the SBI bus, SREFCLK must be the same as LREFCLK. 46 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 59

... If a SDC1FP pulse is received at an unexpected cycle, the Drop bus with become high-impedence until two consecutive valid SDC1FP pulses occur. The system frame pulse is a single SREFCLK cycle long and is updated on the rising edge of SREFCLK. 47 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 60

... SADATA[7:0], SAPL and SAV5. The TEMAP-84 monitors the add bus parity during all cycles when S77 is low and during the entire selected STM-1 when S77 is high. SADP is sampled on the rising edge of SREFCLK. 48 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 61

... All timing adjustments indicated by this signal must be accompanied by appropriate adjustments in the SAPL signal. The TEMAP-84 only monitors the add bus payload indicator signal during the tributary timeslots assigned to this device. SAV5 is sampled on the rising edge of SREFCLK. 49 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 62

... When operating in 19.44 MHz mode (i.e. S77 low), SAJUST_REQ is aligned by the SAC1FP input. When operating in 77.76 MHz mode (i.e. S77 high), SAJUST_REQ’s alignment is relative to the SDC1FP signal. SAJUST_REQ is updated on the rising edge of SREFCLK. 50 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 63

... Therefore, SDPL may be high or low arbitrarily during any SREFCLK cycle. The TEMAP-84 only drives the payload active signal during the tributary timeslots assigned to this device. SDPL is updated on the rising edge of SREFCLK. 51 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 64

... S77 is low). A collision is detected when either of SBIDET[1:0] signals are active concurrently with this device driving SBIACT. When collisions occur the SBI drivers are disabled and an interrupt is generated to signal the collision. 52 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 65

... WRB edge while CSB is low. U22 Bidirectional Data Bus (D[7:0]). This bus provides T20 TEMAP-84 register read and write accesses. V19 U21 U20 W22 Y22 Y21 53 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 66

... TCK. TMS has an integral pull up resistor. E3 Test Data Input (TDI). This signal carries test data into the TEMAP-84 via the IEEE P1149.1 test access port. TDI is sampled on the rising edge of TCK. TDI has an integral pull up resistor. 54 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 67

... Note that if not used, TRSTB must be connected to the RSTB input. Power (VDD3.3[19:1]). The VDD3.3[19:1] pins should A22 be connected to a well decoupled +3.3V DC power AB17 supply. D11 D16 D4 E1 F20 L1 L19 R21 R4 V2 W16 W4 W8 Y18 Y20 Y5 55 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 68

... PROPRIETARY AND CONFIDENTIAL ISSUE 1 Pin Function No. Power (VDD1.8[19:1]). The VDD1.8[19:1] pins should D3 be connected to a well-decoupled +1.8V DC power J2 supply AB2 AB9 Y12 Y15 AB19 N4 V20 U19 N21 K21 C22 C18 A13 B7 56 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 69

... AA7 AB8 AB12 AB15 AB21 A10 A12 A16 A17 B4 B10 B16 C11 C15 C17 C19 C3 C4 D15 D19 D22 G19 H20 H21 H22 J10 J11 J12 J13 J14 J9 K10 K11 57 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 70

... K20 K22 L10 L11 L12 L13 L14 L21 L9 M10 M11 M12 M13 M14 M19 M4 M9 M20 N10 N11 N12 N13 N14 N9 N19 P10 P11 P12 P13 P14 P9 P20 R19 R20 R22 T2 T22 58 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 71

... Y11 Y14 Y17 A1 These balls must be left floating A20 A21 B17 B19 B20 B21 C9 C16 C20 C21 D7 D9 D17 D18 D21 E19 E20 E21 F22 G20 G21 G22 L4 P4 T19 59 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 72

... All unused inputs should be connected to GROUND. 6. Power to the VDD3.3 pins should be applied before power to the VDD1.8 pins is applied. Similarly, power to the VDD1.8 pins should be removed before power to the VDD3.3 pins is removed. PROPRIETARY AND CONFIDENTIAL ISSUE 1 60 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 73

... TVT into the SBI Drop Bus, which by definition has a SPE alignment equivalent to a pointer of 522 decimal. If IVTPPBYP is logic 0, tributary and path pointer justifications on the Telecom Drop Bus will result in PROPRIETARY AND CONFIDENTIAL ISSUE 1 61 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 74

... Table 13 and Table 14 provide the equivalencies between the various multiplex and mapping formats. Alternately, the formats can be equated with the following formulae: 1.544Mbit/s SBI LINK # 2.048Mbit/s SBI LINK # PROPRIETARY AND CONFIDENTIAL ISSUE 1 = 7*(TU11-1) + TUG2 = 4*(DS2-1)+DS1 = 7*(TU12-1) + TUG2 = 3*(DS2-1)+E1 62 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 75

... PRELIMINARY DATASHEET PMC-2010672 Table 13 - Indexing for 1.544 Mbit/s Tributaries SBI Bus Telecom Bus SPE, LINK TUG-3, TUG-2, 1,1 1,2 1,3 1,4 1,5 1,6 1,7 1,8 1,9 1,10 1,11 1,12 1,13 1,14 1,15 1,16 1,17 1,18 1,19 1,20 1,21 1,22 1,23 1,24 1,25 1,26 1,27 1,28 2,1 ... PROPRIETARY AND CONFIDENTIAL ISSUE 1 M13 DS3, DS2, TU11 DS1 1,1,1 1,1,1 1,2,1 1,1,2 1,3,1 1,1,3 1,4,1 1,1,4 1,5,1 1,2,1 1,6,1 1,2,2 1,7,1 1,2,3 1,1,2 1,2,4 1,2,2 1,3,1 1,3,2 1,3,2 1,4,2 1,3,3 1,5,2 1,3,4 1,6,2 1,4,1 1,7,2 1,4,2 1,1,3 1,4,3 1,2,3 1,4,4 1,3,3 1,5,1 1,4,3 1,5,2 1,5,3 1,5,3 1,6,3 1,5,4 1,7,3 1,6,1 1,1,4 1,6,2 1,2,4 1,6,3 1,3,4 1,6,4 1,4,4 1,7,1 1,5,4 1,7,2 1,6,4 1,7,3 1,7,4 1,7,4 2,1,1 2,1,1 ... ... 63 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 76

... Superframe (SF), SLC96 or Extended Superframe (ESF) framing formats. When searching for frame each of the 193 (SF or SLC96) or each of the 772 (ESF) framing bit candidates is simultaneously examined. PROPRIETARY AND CONFIDENTIAL ISSUE 1 M13 DS3, DS2, E1 TU12 1,1,1 1,1,1 1,2,1 1,1,2 1,3,1 1,1,3 1,4,1 1,2,1 1,5,1 1,2,2 1,6,1 1,2,3 1,7,1 1,3,1 1,1,2 1,3,2 1,2,2 1,3,3 1,3,2 1,4,1 1,4,2 1,4,2 1,5,2 1,4,3 1,6,2 1,5,1 1,7,2 1,5,2 1,1,3 1,5,3 1,2,3 1,6,1 1,3,3 1,6,2 1,4,3 1,6,3 1,5,3 1,7,1 1,6,3 1,7,2 1,7,3 1,7,3 2,1,1 2,1,1 ... ... 64 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 77

... T1.403, TR-TSY-000312, and TR-TSY-000303. 9.3.2 T1 Bit Oriented Code Detection The presence the possible 64 bit oriented codes transmitted in the T1 Facility Data Link channel in ESF framing format is detected, as defined in ANSI PROPRIETARY AND CONFIDENTIAL ISSUE 1 65 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 78

... RAI-CI is declared when a bit oriented code of “00111110 11111111” is validated (i.e. two consecutive patterns) while RAI (a.k.a. Yellow alarm) is declared. RAI- PROPRIETARY AND CONFIDENTIAL ISSUE 1 th code (111111) is similar to the HDLC 66 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER -3 bit error rate. ...

Page 79

... CRC submultiframe. The E1 framer identifies the raw bit values for the Remote (or distant frame) Alarm (bit 3 in timeslot 0 of NFAS frames) and the Remote Signaling Multiframe PROPRIETARY AND CONFIDENTIAL ISSUE 1 67 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 80

... FAS pattern and in bit 2 of NFAS PROPRIETARY AND CONFIDENTIAL ISSUE 1 -3 bit error rate and no mimic patterns. 68 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 81

... CRC-4 multiframe alignment within the subsequent 400 ms, the distant end is assumed non CRC-4 interface. The details of this algorithm are illustrated in the state diagram in Figure 7. PROPRIETARY AND CONFIDENTIAL ISSUE 1 69 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER -3 bit error rate the ...

Page 82

... FAS found next fram e BFA_Par 8m s expire and NOT(400m s expire) CRCMFA_Par CRC to non-CRC Interworking CR CMFA_Par (Optional setting) 70 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER NFAS not found next fram e FAS not found next fram e Start 8m s tim er 400m s expire ...

Page 83

... E1 framer stops searching for CRC multiframe alignment and declares CRC-to-non-CRC interworking. In this mode, the E1 framer may be PROPRIETARY AND CONFIDENTIAL ISSUE 1 Out of Frame Yes Yes Yes PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Out of Offline Frame Yes Yes Yes No No ...

Page 84

... This algorithm biases OOF occurrences, leading to declaration of Red alarm when intermittent loss of frame alignment occurs. The E1 framer can also be disabled to allow reception of unframed data. PROPRIETARY AND CONFIDENTIAL ISSUE 1 -3 mean bit error rate. 72 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 85

... FIFO. On end of message, the RHDL Indirect Channel Data Registers indicates the FCS status and if the packet contained a non-integer number of bytes. PROPRIETARY AND CONFIDENTIAL ISSUE 1 error for SF and SLC96 and PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER error for ESF framing e ...

Page 86

... TE or NT1 given in ANSI Standard T1.408, and the implied jitter attenuation requirements for a type II customer interface given in ANSI T1.403 to be met. The jitter attenuator meets the E1 jitter PROPRIETARY AND CONFIDENTIAL ISSUE 1 74 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 87

... Unit Intervals peak-to-peak (UIpp) with a worst case frequency offset of 369 Hz. Figure 8 - Jitter Tolerance T1 Modes 100 28 10 1.0 0.1 0.01 1 4.9 PROPRIETARY AND CONFIDENTIAL ISSUE 1 10 100 300 Jitter Frequency (Hz) 75 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Minimum Jitter Tolerance 62411Min acceptable unacceptable 1k 10k 100k 48 0.4 ...

Page 88

... Jitter frequencies above 3.4 Hz are attenuated at a level per decade, as shown in Figure 10. PROPRIETARY AND CONFIDENTIAL ISSUE 100 Jitter Frequency (Hz) 76 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Minimum Jitter Tolerance ITU-T G.823 Min acceptable unacceptable 1k 2.4k 10k ...

Page 89

... Jitter frequencies above 2.5 Hz are attenuated at a level per decade, as shown in Figure 11. PROPRIETARY AND CONFIDENTIAL ISSUE 1 Jitter Attenuator Response 43802 Max 62411 Max 20 350 100 1k Jitter Frequency (Hz) 77 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 10k 100k ...

Page 90

... The tracking range is 2.048 MHz ± 999 Hz with no jitter or SREFCLK frequency offset. PROPRIETARY AND CONFIDENTIAL ISSUE 1 G.737, G.738, G.739, G.742 Max Jitter Attenuator Response 40 400 10 100 Jitter Frequency (Hz) 78 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER unacceptable acceptable 1k 10k 100k ...

Page 91

... M-frames while no discrepancies have occurred in the F-bits. During the examination of the M-bits, the X-bits and P-bits are ignored. The algorithm gives a maximum average reframe time of 1.5 ms. PROPRIETARY AND CONFIDENTIAL ISSUE PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER - ...

Page 92

... RED, AIS, or IDLE are removed when the respective counter decrements to 0. DS3 Loss of Frame detection is provided as recommended by ITU-T G.783 with programmable integration periods of 1ms, 2ms, or 3ms. While integrating up to PROPRIETARY AND CONFIDENTIAL ISSUE 1 80 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER -3 bit error rate. For AIS, ...

Page 93

... AVC context bit. The code is declared removed if two code sequences PROPRIETARY AND CONFIDENTIAL ISSUE 1 Th code (111111) is similar to the HDLC flag 81 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 94

... The Performance Monitor (PMON) Block interfaces directly with the DS3 Framer (DS3-FRMR) and E3 Framer. Saturating counters are used to accumulate: • line code violation (LCV) events • parity error (PERR) events PROPRIETARY AND CONFIDENTIAL ISSUE 1 82 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 95

... FERF can also be automatically inserted on detection of any combination of LOS, OOF or RED, or AIS by the DS3-FRMR. PROPRIETARY AND CONFIDENTIAL ISSUE 1 83 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 96

... CLK52M input pin, in response to SBI bus timing justification requests from the link-layer device. TEMAP-84 is the SBI bus clock slave in this mode, and the SBI bus must be the system side option. PROPRIETARY AND CONFIDENTIAL ISSUE 1 84 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 97

... An interrupt can be generated once the FIFO depth has fallen below a user configured lower threshold as an indicator for the user to write more data. PROPRIETARY AND CONFIDENTIAL ISSUE 1 85 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 98

... M23 Multiplexer (MX23) The M23 Multiplexer (MX23) integrates circuitry required to asynchronously multiplex and demultiplex seven DS2 streams into, and out of, an M23 or C-bit Parity formatted DS3 serial stream. PROPRIETARY AND CONFIDENTIAL ISSUE 1 86 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 99

... TR-TSY-000009 Section 4.1.2) or when one or more M-bit errors are detected in 3 out of 4 consecutive M-frames. The M-bit error criteria for OOF can be disabled via the MBDIS bit in the DS2 Framer configuration PROPRIETARY AND CONFIDENTIAL ISSUE 1 87 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 100

... The DS2 FRMR may be configured to generate interrupts on error events or status changes. All sources of interrupts can be masked or acknowledged via internal registers. Internal registers are also used to configure the DS2 FRMR. PROPRIETARY AND CONFIDENTIAL ISSUE 1 88 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER -3 . Each "valid" DS2 M- ...

Page 101

... AIS, and the reserved bit. A diagnostic option is provided to invert the transmitted frame alignment signal and parity bit. When demultiplexing three 2048 kbit/s streams from a G.747 formatted 6312 kbit/s stream, bit destuffing is performed via interpretation of the C-bits. PROPRIETARY AND CONFIDENTIAL ISSUE 1 89 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 102

... Network Operator byte for processing by the HDLC receiver when the RNETOP bit in the E3 Data Link Control register is logic 1; PROPRIETARY AND CONFIDENTIAL ISSUE 1 90 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 103

... LOF is de-asserted. The E3-FRMR can also be enabled to automatically assert the RAI/FERF indication in the outgoing transmit stream upon detection of any combination of PROPRIETARY AND CONFIDENTIAL ISSUE 1 -3 BER as 92.9% in G.832 and 98.0% in G.751. 91 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 104

... Network Operator (NR) byte from the TDPR block when the TNETOP bit in the E3 Data Link Control register is logic 1; otherwise, the NR byte is set to all ones. All 8 bits of the Network Operator byte are available for use as a datalink; PROPRIETARY AND CONFIDENTIAL ISSUE 1 92 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 105

... Recovered E3 clock from the RCLK[3:1] input pins. If the system interface is SBI, then TEMAP-84 is the SBI bus clock master case 1 above. If the system interface is serial clock and data, TEMAP-84 derives TGAPCLK[3:1] from the recovered E3 clock.) PROPRIETARY AND CONFIDENTIAL ISSUE 1 93 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 106

... In the egress direction the pointer interpreter section of the VTPP can be bypassed on a per tributary basis to allow for pointer generator in the absence of valid pointers which is necessary when mapping floating transparent virtual tributaries from the SBI bus. PROPRIETARY AND CONFIDENTIAL ISSUE 1 94 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 107

... V5 tag into the payload buffer byte FIFO buffer is provided for each of the (up to 28) tributaries. Address information is also passed through the payload buffer to allow FIFO fill status to be determined by the pointer generator. PROPRIETARY AND CONFIDENTIAL ISSUE 1 95 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 108

... BIP-2 code encoded in the V5 byte of the tributary. Errors between the computed and received values are accumulated. RTOP also accumulates far PROPRIETARY AND CONFIDENTIAL ISSUE 1 96 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 109

... Path Signal Label Mismatch State Expected PSL 000 000 000 000 PROPRIETARY AND CONFIDENTIAL ISSUE 1 Accepted PSL 000 001 PDI Code XXX ≠ 000, 001, PDI Code 97 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER PSLM State Match Mismatch Mismatch Mismatch ...

Page 110

... PDI Code XXX ≠ 000, 001, PDI Code 000 001 PDI Code XXX ≠ 000, 001, PDI Code 000 001 XXX YYY 98 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER PSLM State Mismatch Match Match Match Mismatch Match Match Mismatch ...

Page 111

... STM-1/VC4 or STM-1 VC3 payload. The bit asynchronous T1 mapping consists of 104 octets every 500 µs (2 KHz) and is shown in Table 3. The bit asynchronous E1 mapping consists of 140 octets every 500us and is shown in Table 4. PROPRIETARY AND CONFIDENTIAL ISSUE 1 99 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 112

... C: Stuff Control bit - set to logic ‘1’ for stuff indication S: Stuff Opportunity bit - when stuff control bit is ‘0’, stuff opportunity is I bit O: Overhead I: T1 payload information PROPRIETARY AND CONFIDENTIAL ISSUE 100 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 113

... The RTDM performs majority voting on the tributary stuff control (C1, C2) bits. If the majority of each set of the stuff control bits indicate a stuff operation, then the associated stuff opportunity bit (S1, S2) will not carry payload. PROPRIETARY AND CONFIDENTIAL ISSUE 1 1 101 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 114

... RAWSIG bit programmed through the SIGX Indirect Channel Data registers is logic 1. This is programmed on a per-tributary basis. For E1, the signaling is extracted from “Multiframe alignment signal” byte. PROPRIETARY AND CONFIDENTIAL ISSUE 1 The demapping is done 102 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER bit ...

Page 115

... CCRRRRRR CCRRRRRR CCRRRRRR CCRRRRRR CCRRRRRR 103 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER CCRROORS CCRROORS CCRROORS ...

Page 116

... C ( (0) F ( (0) F ( (0) F (0) C (0) 104 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER (0) ...

Page 117

... DS3 AIS, faster and slower status. The faster pattern is used to drain the elastic store to avoid overflows. The slower pattern is used to allow the elastic store to fill to avoid underflows. PROPRIETARY AND CONFIDENTIAL ISSUE 1 105 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 118

... An PROPRIETARY AND CONFIDENTIAL ISSUE 1 Run Faster 621 621 622 621 621 622 621 621 622 106 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Run Slower 621 621 621 621 622 622 621 621 622 621 ...

Page 119

... Telecom Drop bus, LDDATA[7:0]. The contents of the SONET/SDH Master Tributary Remote Defect Indication Control register determine which alarms PROPRIETARY AND CONFIDENTIAL ISSUE 1 107 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 120

... UI. To reduce mapping jitter even further, a dither technique is inserted between the control loop and the stuff bit generator resulting in an acceptable desynchronizer mapping jitter of about 0.3 UI. PROPRIETARY AND CONFIDENTIAL ISSUE 1 108 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 121

... SPE mapped payload capacity. The asynchronous DS3 mapping consists of 9 rows every 125 µs (8 KHz). Each row contains 621 information bits, 5 stuff control bits, 1 stuff opportunity bit, and 2 overhead communication PROPRIETARY AND CONFIDENTIAL ISSUE 1 109 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 122

... The 8 kHz STS-1 (STM-0/AU3) frame interval is subdivided into 9 rows. Each row contains one stuff opportunity. Table 8 illustrates the stuffing implementation where S means stuff bit and I means an information bit (DS3 data). PROPRIETARY AND CONFIDENTIAL ISSUE 1 110 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 123

... Mbit/s or 44.736 Mbit/s internal clocks are slaved to the arrival rate of the PROPRIETARY AND CONFIDENTIAL ISSUE 1 Normal or DS3 AIS Run Faster 111 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Run Slower ...

Page 124

... DS3/E3 interfaces or from the DS3 mapper. The 44.736 Mbit/s links and 34.368 Mbit/s links can be unchannelized DS3/E3s when sourced from the DS3 or E3 framers. Finally, an arbitrary bandwidth signal that has been received PROPRIETARY AND CONFIDENTIAL ISSUE 1 112 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 125

... SAJUST_REQ asserts as required. 9.36 JTAG Test Access Port The JTAG Test Access Port block provides JTAG support for boundary scan. The standard JTAG EXTEST, SAMPLE, BYPASS, IDCODE and STCTEST PROPRIETARY AND CONFIDENTIAL ISSUE 1 113 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 126

... PRELIMINARY DATASHEET PMC-2010672 instructions are supported. The TEMAP-84 identification code is 053660CD hexadecimal. PROPRIETARY AND CONFIDENTIAL ISSUE 1 114 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 127

... ISSUE 1 Register Revision Global Reset Global Configuration SPE #1 Configuration SPE #2 Configuration SPE #3 Configuration Bus Configuration Global Performance Monitor Update Reference Clock Select Recovered Clock#1 Select Recovered Clock#2 Select Recovered Clock#3 Select 115 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 128

... Master SBIDET1 Collision Detect MSB T1/E1 Master Configuration RJAT Indirect Status RJAT Indirect Channel Address Register RJAT Indirect Channel Data Register TJAT Indirect Status TJAT Indirect Channel Address Register TJAT Indirect Channel Data Register 116 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 129

... T1/E1 Framer Indirect Status T1/E1 Framer Indirect Channel Address Register T1/E1 Framer Indirect Channel Data Registers T1/E1 Framer Configuration and Status T1/E1 Framer Interrupt Status SBI Master Reset / Bus Signal Monitor SBI Master Configuration SBI Bus Master Configuration 117 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 130

... DS3 and E3 Master Unchannelized Interface Options DS3/E3 Master Transmit Line Options DS3/E3 Master Receive Line Options DS3/E3 Master Alarm Enable DS2 Master Alarm Enable / DS3 Network Requirement Bit E3 Data Link Control DS3 TRAN Configuration 118 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 131

... DS3/E3 PMON FEBE Event Count MSB DS3/E3 TDPR Configuration DS3/E3 TDPR Upper Transmit Threshold DS3/E3 TDPR Lower Interrupt Threshold DS3/E3 TDPR Interrupt Enable DS3/E3 TDPR Interrupt Status/UDR Clear DS3/E3 TDPR Transmit Data DS3/E3 RDLC Configuration 119 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 132

... MX23 Demux AIS Insert MX23 Mux AIS Insert MX23 Loopback Activate MX23 Loopback Request Insert MX23 Loopback Request Detect MX23 Loopback Request Interrupt FEAC XBOC Control FEAC XBOC Code FEAC RBOC Configuration/Interrupt Enable 120 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 133

... DS2 FRMR #3 Registers MX12 #3 Registers DS2 FRMR #4 Registers MX12 #4 Registers DS2 FRMR #5 Registers MX12 #5 Registers DS2 FRMR #6 Registers MX12 #6 Registers DS2 FRMR #7 Registers MX12 #7 Registers E3 FRMR Framing Options E3 FRMR Maintenance Options 121 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 134

... SONET/SDH Master Ingress VTPP Configuration SONET/SDH Master Egress VTPP Configuration SONET/SDH Master RTOP Configuration SONET/SDH Master Tributary Alarm AIS Control SONET/SDH Master Tributary Remote Defect Indication Control SONET/SDH Master Tributary Auxiliary Remote Defect Indication Control 122 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 135

... VTPP Ingress TUG2 #1 to TUG2 #7, Configuration and Status VTPP Ingress TUG2 #1 to TUG2 #7, Alarm Status VTPP Ingress TUG2 #1 to TUG2 #7, LOP Interrupt VTPP Ingress TUG2 #1 to TUG2 #7 AIS Interrupt 123 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 136

... RTDM Tributary Control Reserved RTDM Time Switch Page Control RTDM Indirect Time Switch Tributary RAM Status and Control RTDM Indirect Time Switch Internal Link Address RTDM Indirect Ingress Tributary Data Egress VTPP #1 124 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 137

... VTPP Egress TUG2 #1 to TUG2 #7, Configuration and Status VTPP Egress TUG2 #1 to TUG2 #7, Alarm Status VTPP Egress TUG2 #1 to TUG2 #7, LOP Interrupt VTPP Egress TUG2 #1 to TUG2 #7, AIS Interrupt 125 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 138

... Byte Synchronous Demapping Tributary RAM Indirect Access Control Register Byte Synchronous Demapping Tributary Mapping RAM Indirect Access Data Register Byte Synchronous Demapping Tributary Control RAM Indirect Access Data Register Byte Synchronous Demapping FIFO Control Register 126 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 139

... RTOP TUG2 #1 to TUG2 #7, BIP-2 Error Count MSB RTOP TUG2 #2 to TUG2 #7, FEBE Error Count LSB RTOP TUG2 #2 to TUG2 #7, FEBE Error Count MSB RTOP TUG2 #1 to TUG2 #7, COPSL Interrupt 127 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 140

... RTOP TUG2 #1 to TUG2 #7, Accepted Path Signal Label RTOP TUG2 #1 to TUG2 #7, BIP-2 Error Count LSB RTOP TUG2 #1 to TUG2 #7, BIP-2 Error Count MSB RTOP TUG2 #1 to TUG2 #7, FEBE Error Count LSB 128 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 141

... RTOP TUG2 #1 to TUG2 #7, Configuration and Alarm Status RTOP TUG2 #1 to TUG2 #7, Expected Path Signal Label RTOP TUG2 #1 to TUG2 #7, Accepted Path Signal Label RTOP TUG2 #1 to TUG2 #7, BIP-2 Error Count LSB 129 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 142

... RTOP TUG2 #1 to TUG2 #7, Inband Error Reporting Configuration RTOP TUG2 #1 to TUG2 #7, Configuration RTOP TUG2 #1 to TUG2 #7, Configuration and Alarm Status RTOP TUG2 #1 to TUG2 #7, Expected Path Signal Label 130 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 143

... RTOP TUG2 #1 to TUG2 #7, PSLU Interrupt RTOP TUG2 #1 to TUG2 #7, RDI Interrupt RTOP TUG2 #1 to TUG2 #7, RFI Interrupt RTOP TUG2 #1 to TUG2 #7, Inband Error Reporting Configuration #2 #3 131 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 144

... TRAP TUG2 #1 to TUG2 #7 of TUG3 #2, Egress AIS Control TRAP TUG2 #1 to TUG2 #7 of TUG3 #2, Control TRAP TUG2 #1 to TUG2 #7 of TUG3 #2, Egress AIS Control TRAP TUG2 #1 to TUG2 #7 of TUG3 #3, Control 132 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 145

... TTOP TUG2 #1 of TUG3 #1, Control TTOP TUG2 #2 to TUG2 #7 of TUG3 #1, Control TTOP TUG2 #1 to TUG2 #7 of TUG3 #1 BIP Diagnostic Control TTOP TUG2 #1 to TUG2 #7 of TUG3 #1, Control 133 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 146

... TTOP TUG2 #1 to TUG2 #7 of TUG3 #3, Control TTOP TUG2 #1 to TUG2 #7 of TUG3 #3, BIP Diagnostic Control TTOP TUG2 #1 to TUG2 #7 of TUG3 #3, Control TTOP TUG2 #1 to TUG2 #7 of TUG3 #3, BIP Diagnostic Control 134 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 147

... TTMP Indirect Time Switch RAM Control and Status TTMP Indirect Egress Tributary Address TTMP Indirect Time Switch Internal Link Data TTMP Telecom Interface Configuration D3MD #1 D3MD Control D3MD Interrupt Status D3MD Interrupt Enable D3MD #2 D3MD #3 D3MA Control 135 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 148

... RTTB TUG2 #1 to TUG2 #7, TIU Interrupt RTTB TUG2 #1 to TUG2 #7, TIU Interrupt RTTB TUG2 #1 to TUG2 #7, TIU Interrupt RTTB TIU Threshold RTTB Indirect Tributary Select RTTB Indirect Address Select RTTB Indirect Data Select RTTB #2 136 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 149

... PRELIMINARY DATASHEET PMC-2010672 Address 0x0F80 – 0x0FAB 0x1000 For all register accesses, CSB must be low. PROPRIETARY AND CONFIDENTIAL ISSUE 1 Register RTTB #3 Master Test 137 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 150

... Writeable normal mode register bits are cleared to logic 0 upon reset unless otherwise noted. 4) Writing into read-only normal mode register bit locations does not affect TEMAP-84 operation unless otherwise noted. PROPRIETARY AND CONFIDENTIAL ISSUE 1 138 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 151

... Writeable register bits are not initialized upon reset unless otherwise noted. PROPRIETARY AND CONFIDENTIAL ISSUE 1 139 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 152

... When PMCTST is logic 0, the DBCTRL bit is ignored. Reserved: These bits must be logic 0 for correct operation. PROPRIETARY AND CONFIDENTIAL ISSUE 1 Function Default Reserved 0 Unused X Unused X PMCTST 0 DBCTRL X Reserved 0 HIZDATA X HIZIO 0 140 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 153

... HIZIO bit is a logic 1, all output pins of the TEMAP-84, except the data bus, are held in a high-impedance state. While the HIZDATA bit is a logic 1, the data bus is held in a high-impedance state which inhibits microprocessor read cycles. PROPRIETARY AND CONFIDENTIAL ISSUE 1 141 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 154

... Identification Register Length Version number Part Number Manufacturer's identification code Device identification PROPRIETARY AND CONFIDENTIAL ISSUE 1 Instruction Codes, IR[2:0] 000 001 010 011 100 101 110 111 32 bits 0x0 0x5366 0x0CD 0x053660CD 142 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 155

... A_9 21 OUT_CELL - A_10 22 OUT_CELL - A_11 23 OUT_CELL - A_12 24 OUT_CELL - WRB 25 OUT_CELL - RDB 143 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Bit # Cell Type 151 OUT_CELL 152 IO_CELL 153 OUT_CELL 154 IO_CELL 155 OUT_CELL 156 IO_CELL 157 OUT_CELL 158 IO_CELL 159 ...

Page 156

... OEB_LAC1J1V1 53 IN_CELL - LAC1 54 IN_CELL - CLK52M 55 IN_CELL - RADWEST 56 IN_CELL - RADWESTFP 57 IN_CELL - RADWESTCK 144 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Bit # Cell Type 177 IN_CELL 178 OUT_CELL 179 OUT_CELL 180 OUT_CELL 181 OUT_CELL 182 OUT_CELL 183 OUT_CELL 184 OUT_CELL 185 ...

Page 157

... RNEG_RLCV_1 85 OUT_CELL - RPOS_RDAT_1 86 OUT_CELL - RCLK_1 87 OUT_CELL - TNEG_TMFP_2 88 OUT_CELL - OEB_TNEG_TMFP_2 89 OUT_CELL - TCLK_2 145 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Bit # Cell Type 209 IN_CELL 210 IN_CELL 211 IN_CELL 212 IN_CELL 213 IN_CELL 214 IN_CELL 215 IN_CELL 216 IN_CELL 217 ...

Page 158

... OEB_TFPO_TMFPO_ TGAPCLK_1 117 IN_CELL - TFPI_TMFPI_1 118 IN_CELL - TDATI_1 119 IN_CELL - RGAPCLK_RSCLK_2 120 IN_CELL - OEB_RGAPCLK_RSCLK_2 146 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Bit # Cell Type 241 OUT_CELL 242 OUT_CELL 243 OUT_CELL 244 IN_CELL 245 IN_CELL 246 IN_CELL 247 IN_CELL ...

Page 159

... RECVCLK_2 146 IO_CELL - OEB_RECVCLK_2 147 OUT_CELL - RECVCLK_1 148 IO_CELL - OEB_RECVCLK_1 149 OUT_CELL - XCLK_E1 147 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Bit # Cell Type 272 OUT_CELL 273 OUT_CELL 274 OUT_CELL 275 OUT_CELL 276 OUT_CELL 277 OUT_CELL 278 OUT_CELL 279 ...

Page 160

... Unconnected register bits in the scan chain are not connected to any pins. PROPRIETARY AND CONFIDENTIAL ISSUE 1 Bit # Cell Type Id Pin/ Enable Bit 150 IO_CELL - XCLK_T1 148 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Bit # Cell Type 301 IN_CELL Id Bit 0 ...

Page 161

... Table 13 and Table 14 provide the equivalencies between the various multiplex and mapping formats. Alternately, the formats can be equated with the following formulae: 1.544Mbit/s SBI LINK # 2.048Mbit/s SBI LINK # PROPRIETARY AND CONFIDENTIAL ISSUE 1 = 7*(TU11-1) + TUG2 = 4*(DS2-1)+DS1 = 7*(TU12-1) + TUG2 = 3*(DS2-1)+E1 149 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 162

... PRELIMINARY DATASHEET PMC-2010672 Table 13 - Indexing for 1.544 Mbit/s Tributaries SBI Bus Telecom Bus SPE, LINK TUG-3, TUG-2, 1,1 1,2 1,3 1,4 1,5 1,6 1,7 1,8 1,9 1,10 1,11 1,12 1,13 1,14 1,15 1,16 1,17 1,18 1,19 1,20 1,21 1,22 1,23 1,24 1,25 1,26 1,27 1,28 2,1 ... PROPRIETARY AND CONFIDENTIAL ISSUE 1 M13 DS3, DS2, TU11 DS1 1,1,1 1,1,1 1,2,1 1,1,2 1,3,1 1,1,3 1,4,1 1,1,4 1,5,1 1,2,1 1,6,1 1,2,2 1,7,1 1,2,3 1,1,2 1,2,4 1,2,2 1,3,1 1,3,2 1,3,2 1,4,2 1,3,3 1,5,2 1,3,4 1,6,2 1,4,1 1,7,2 1,4,2 1,1,3 1,4,3 1,2,3 1,4,4 1,3,3 1,5,1 1,4,3 1,5,2 1,5,3 1,5,3 1,6,3 1,5,4 1,7,3 1,6,1 1,1,4 1,6,2 1,2,4 1,6,3 1,3,4 1,6,4 1,4,4 1,7,1 1,5,4 1,7,2 1,6,4 1,7,3 1,7,4 1,7,4 2,1,1 2,1,1 ... ... 150 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 163

... DS3/E3 serial line interfaces. 12.2.1 SBI and Telecom Buses Both 19.44 MHz The rising and falling edges of LREFCLK must be aligned with a tolerance of +/- 10ns to the corresponding edges of SREFCLK. PROPRIETARY AND CONFIDENTIAL ISSUE 1 M13 DS3, DS2, E1 TU12 1,1,1 1,1,1 1,2,1 1,1,2 1,3,1 1,1,3 1,4,1 1,2,1 1,5,1 1,2,2 1,6,1 1,2,3 1,7,1 1,3,1 1,1,2 1,3,2 1,2,2 1,3,3 1,3,2 1,4,1 1,4,2 1,4,2 1,5,2 1,4,3 1,6,2 1,5,1 1,7,2 1,5,2 1,1,3 1,5,3 1,2,3 1,6,1 1,3,3 1,6,2 1,4,3 1,6,3 1,5,3 1,7,1 1,6,3 1,7,2 1,7,3 1,7,3 2,1,1 2,1,1 ... ... 151 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 164

... PROPRIETARY AND CONFIDENTIAL ISSUE 1 Clock Cycles LAC1 leads SDC1FP ( 2…) LSTM[1: 4n (Clock Cycles LAC1 leads SDC1FP) mod 4 152 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 165

... MHz SBI to 19.44 MHz Telecom to Bus Alignment Options SSTM[1:0] 00 PROPRIETARY AND CONFIDENTIAL ISSUE 1 LREFCLK Cycles LAC1 sampling edge leads SREFCLK rising edge SREFCLK Cycles SDC1FP sampling edge leads LREFCLK rising edge 1 153 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 166

... 154 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 84 bits 84 bits 84 bits ...

Page 167

... C-bit in M-subframe 1 is detected by the DS3 RBOC block. Path parity errors and detected FEBEs on the C-bits in M-subframes 3 and 4 are reported in the DS3 PMON Path Parity Error Event Count and FEBE Event PROPRIETARY AND CONFIDENTIAL ISSUE 1 155 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 168

... The BER at which the probability of counter saturation reaches 50% is shown for various counters in Table 18 for E1 mode, and in Table 19 for T1 mode. PROPRIETARY AND CONFIDENTIAL ISSUE 1 156 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 169

... Figure 13 illustrates the expected count values for a range of Bit Error Ratios in E1 mode. PROPRIETARY AND CONFIDENTIAL ISSUE 1 -3 Format BER - ESF - ESF cannot saturate -3 , the average counter event count 157 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 170

... BER. This must be taken into account æ ö æ 8 ö ç − log ç 1 CRCE ÷ ç 8000 è ç 256 ç ç è 158 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 200 250 - each CRC-4 error is often , ...

Page 171

... Average Count Over Many 1 Second Intervals 0 50 100 150 Framing Bit Error Count Per Second -4 , each CRC-6 error is often due to more than one 159 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 800 1000 1200 200 250 -4 , there tends ...

Page 172

... CRCE Average Count Over Many 1 Second Intervals 200 400 600 800 Bit Error Event Count Per Second 160 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 300 350 1000 1200 ...

Page 173

... Upper Transmit Threshold. The CRC bit can be set to logic 1 so that the FCS is generated and inserted at the end of a packet. The TDPR Lower Interrupt Threshold should be set to such a value that sufficient PROPRIETARY AND CONFIDENTIAL ISSUE 1 161 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 174

... Abort sequence and continuous flags will be transmitted. The TDPR FIFO is held in reset state. To re-enable the TDPR FIFO and to clear the underrun, the TDPR Interrupt Status/UDR Clear register should be written with any value. PROPRIETARY AND CONFIDENTIAL ISSUE 1 162 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 175

... The FULLE, LFILLE, OVRE, and UDRE bits are all set to logic 0 since packet transmission is set to work with a periodic polling procedure. The following procedure should be followed to transmit HDLC packets: PROPRIETARY AND CONFIDENTIAL ISSUE 1 163 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 176

... FIFO buffer. This is done to provide alignment of link up status with the data read from the FIFO. When an abort character is received, another dummy byte and link down PROPRIETARY AND CONFIDENTIAL ISSUE 1 164 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 177

... If COLS = 1, then set the EMPTY FIFO software flag PKIN = 1, increment the PACKET COUNT. If the FIFO is desired to be emptied as soon as a complete packet is received, set the EMPTY FIFO PROPRIETARY AND CONFIDENTIAL ISSUE 1 165 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 178

... If the RDLC data transfer is operating in the polled mode, processor operation is exactly as shown above for the interrupt driven mode, except that the entry to the service routine is from a timer, rather than an interrupt. PROPRIETARY AND CONFIDENTIAL ISSUE 1 166 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 179

... D - packet data bytes INT - active high interrupt output FE - internal FIFO empty status LA - state of the LINK ACTIVE software flag 167 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER data bytes received and transferred to the FIFO Buffer ...

Page 180

... T1/E1 Line loopback is initiated by setting the LLOOP bit through the TJAT Indirect Channel Data register. When in line loopback mode, the appropriate tributary in the TEMAP-84 is configured to internally connect the jitter-attenuated PROPRIETARY AND CONFIDENTIAL ISSUE 1 168 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 181

... M 13 PISO Line Loopback INSBI (byte) TTM P T1/E1 (bit) JAT84 RTDM T1/E1 (bit) JAT84 EXSBI (byte SIPO 169 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Egress Flexible B/W Port EXSBI SBI 155 T1/E1 FRM R84 INSBI Ingress Flexible B/W Port ...

Page 182

... M 13 PISO INSBI (byte) TTM P T1/E1 (bit) JAT84 RTDM T1/E1 (bit) JAT84 EXSBI Diagnostic Loopback (byte SIPO 170 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Egress Flexible B/W Port EXSBI SBI 155 T1/E1 FRM R84 INSBI Ingress Flexible B/W Port ...

Page 183

... LLOOP bit in the DS3 and E3 Master Data Source register and payload loopback is selected by the PLOOP bit in the same register. PROPRIETARY AND CONFIDENTIAL ISSUE 1 DS3/E3 FRMR UNI DS3/E3 TRAN 171 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 184

... DS2 Tributary Loopback path TCLK TPOS/ DS3 TDAT TRAN TNEG/ TMFP PROPRIETARY AND CONFIDENTIAL ISSUE 1 DS3/E3 FRMR DS3/E3 TRAN MX23 Optional DEMUX AIS Insertion 172 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER F MX12 # MX12 # MX12 # MX12 #4 M ...

Page 185

... VTPPs. Both VTPP must be setup for the same STS-1 SPE, PROPRIETARY AND CONFIDENTIAL ISSUE 1 VTPP VT/TU Payload Processor 173 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER RTOP Receive Tributary Path O/H VTPP VT/TU ...

Page 186

... V5 indicator and payload signals (SDV5, SAV5, SDPL and SAPL). TVTs also allow for synchronous operation where PROPRIETARY AND CONFIDENTIAL ISSUE 1 VTPP VT/TU Payload Processor VTPP VT/TU Payload Processor 174 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER RTOP Receive Tributary Path O/H TTOP Transmit Tributary Path O/H ...

Page 187

... DS3 number 2 number 2,1. SPE3 carries T1s numbered 3,1 through 3,28, E1s numbered 3,1 through 3,21, DS3 number 3 number 3,1. TVT1.5s are numbered the same as T1 tributaries and TVT2s are numbered the same as E1 tributaries. PROPRIETARY AND CONFIDENTIAL ISSUE 1 175 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 188

... PROPRIETARY AND CONFIDENTIAL ISSUE ••• - SPE1SPE2SPE3SPE1 ••• SPE1SPE2SPE3 - - - - - SPE1SPE2SPE3SPE1 7,35,63 176 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 268 269 270 SPE1SPE2SPE3 SBI Column 19,103,187 20,104,188 7,35,63 21,105,189 22,106,190 ...

Page 189

... H3 octet unused. Both these rate adjustments are indicated by the SBI control signals. PROPRIETARY AND CONFIDENTIAL ISSUE 1 8,36,64 34,62,90 7,28,49,70 8,29,50,71 27,48,69,90 th 2KHz frame pulse period. SREFCLK 177 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 23,107,191 100,184,268 101,185,269 34,62,90 102,186,270 SBI Column 19,82,145,208 20,83,146,209 7,28,49,70 21,84,147,210 ...

Page 190

... SAJUST_REQ output is asserted to fetch data across the ADD bus. In turn, the data source responds with data and the SAPL signal asserted an equal or less number of cycles than SAJUST_REQ is asserted. Significant latency is PROPRIETARY AND CONFIDENTIAL ISSUE 1 178 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 191

... Table 24 shows the encoding of the clock count, ClkRate[1:0], passed in the link rate octet. Note that while the TEMAP-84 generates valid link rate information on the SBI Drop bus, it ignores the V4 byte on the Add bus. PROPRIETARY AND CONFIDENTIAL ISSUE 1 179 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 192

... PROPRIETARY AND CONFIDENTIAL ISSUE 1 • • • • • • • • • Clock Count Bit # 7 6 ALM 0 ClkRate[1:0] T1 Clocks / 2KHz E1 Clocks / 2 KHz 772 773 771 180 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER Phase 5:4 3:0 Phase[3:0] 1024 1025 1023 ...

Page 193

... Table 23. It carries alarm and clock phase information across the SBI bus. The V1 and V2 octets are unused and should be ignored by devices listening to PROPRIETARY AND CONFIDENTIAL ISSUE 1 Bit # 7 6 ALM 0 ClkRate[1:0] DS3 Clocks / 2KHz 22368 22372 22364 181 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 5:4 3:0 Unused ...

Page 194

... DS0#8 - DS0#11 - DS0#14 - DS0#17 - DS0#20 - DS0# DS0#2 - DS0#5 - DS0#8 - DS0#11 - DS0#14 - DS0#17 - DS0#20 - DS0# DS0#2 - DS0#5 182 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER T1#1,1 T1#2,1-3,28 187 188-270 - PPSSSSFR - - DS0 DS0 DS0 DS0# DS0# DS0# DS0# DS0# PPSSSSFR - - DS0#3 ...

Page 195

... P and ESF A12 A16 183 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER - DS0 DS0# DS0# DS0# DS0# DS0# PPSSSSFR - - DS0 DS0 DS0 DS0# DS0#15 ...

Page 196

... M5 01 B16 B20 B24 C12 C16 C20 C24 M10 D12 F5 M11 11 D16 D20 F6 M12 11 D24 184 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER ...

Page 197

... V2 2 Unused TS#1 3 Unused TS#5 4 Unused TS#9 5 Unused TS#13 6 Unused TS#17 7 Unused TS#21 8 Unused TS#25 9 Unused TS#29 1 Unused V3 2 Unused TS#1 3 Unused TS#5 PROPRIETARY AND CONFIDENTIAL ISSUE 1 20-81 82 83-144 145 TS#2 - TS#3 - TS#6 - TS#7 - TS#10 - TS#11 - TS#14 - TS#15 - TS#18 - TS#19 - TS#22 - TS#23 - TS#26 - TS#27 - TS#30 - TS# TS#2 - TS#3 - TS#6 - TS#7 - TS#10 - TS#11 - TS#14 - TS#15 - TS#18 - TS#19 - TS#22 - TS#23 - TS#26 - TS#27 - TS#30 - TS# TS#2 - TS#3 - TS#6 - TS#7 185 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 146-207 208 209-270 - TS# TS# TS# TS# TS TS# TS# TS# TS# TS TS#8 - ...

Page 198

... ABCD8 ABCD23 ABCD9 ABCD24 ABCD10 ABCD25 ABCD11 ABCD26 ABCD12 ABCD27 ABCD13 ABCD28 ABCD14 ABCD29 ABCD15 ABCD30 PROPRIETARY AND CONFIDENTIAL ISSUE 1 - TS#10 - TS#11 - TS#14 - TS#15 - TS#18 - TS#19 - TS#22 - TS#23 - TS#26 - TS#27 - TS#30 - TS# TS#2 - TS#3 - TS#6 - TS#7 - TS#10 - TS#11 - TS#14 - TS#15 - TS#18 - TS#19 - TS#22 - TS#23 - TS#26 - TS#27 - TS#30 - TS# 186 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER - TS# TS# TS# TS# TS TS# TS# TS# TS# TS# ...

Page 199

... DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 V5 DS3 DS3 DS3 DS3 DS3 187 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER DS3 Col 85 268 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 DS3 ...

Page 200

... H3 octet or leaving empty the octet after the H3 octet. PROPRIETARY AND CONFIDENTIAL ISSUE 8*I 8*I 8*I 8*I 8*I 8*B 5*R 8*B 5*R 8*B 8*B 5*R 8*B 5*R 8*B 8*B 5*R 8*B 5*R 8*B 8*B 5*R 8*B 5*R 8*B 8*B 5*R 8*B 5*R 8*B 8*B 5*R 8*B 5*R 8*B 188 PM5366 TEMAP-84 HIGH DENSITY 84/63 CHANNEL VT/TU MAPPER AND M13 MULTIPLEXER 8*I 8*I 8*I 8*I 8*I 5*R 8*B 5*R 8*B 5*R 5*R 8*B 5*R 8*B 5*R 5*R 8*B 5*R 8*B 5*R 5*R 8*B 5*R 8*B 5*R 5*R 8*B 5*R 8*B 5*R 5*R 8*B 5*R 8*B 5*R 8*B 8*B 8*B ...

Related keywords