DESIGN KIT AVAILABLE DS26503 T1/E1/J1 BITS Element www.maxim-ic.com GENERAL DESCRIPTION FEATURES The DS26503 is a building-integrated timingsupply (BITS) clock-recovery element. It also functions as a basic T1/E1 transceiver. The receiver portion can recover a clock from T1, E1, and 6312kHz synchronization timing interfaces. In T1 and E1 modes, the Synchronization Status Message (SSM) can also be recovered.
DS26503 T1/E1/J1 BITS Element TABLE OF CONTENTS 1. FEATURES ....................................................................................................................................7 1.1 1.2 1.3 1.4 1.5 1.6 GENERAL .....................................................................................................................................7 LINE INTERFACE ...........................................................................................................................
DS26503 T1/E1/J1 BITS Element 9. E1 FRAMER/FORMATTER CONTROL REGISTERS .................................................................46 9.1 9.2 E1 CONTROL REGISTERS ...........................................................................................................46 E1 INFORMATION REGISTERS......................................................................................................48 10. I/O PIN CONFIGURATION OPTIONS...................................................................
DS26503 T1/E1/J1 BITS Element 19.2 19.3 19.4 19.5 NONMULTIPLEXED BUS.............................................................................................................113 SERIAL BUS .............................................................................................................................116 RECEIVE SIDE AC CHARACTERISTICS .......................................................................................118 TRANSMIT SIDE AC CHARACTERISTICS .................................
DS26503 T1/E1/J1 BITS Element LIST OF FIGURES Figure 3-1. Block Diagram ........................................................................................................................11 Figure 3-2. Loopback Mux Diagram (T1/E1 Modes Only) ........................................................................12 Figure 3-3. Transmit PLL Clock Mux Diagram..........................................................................................12 Figure 3-4. Master Clock PLL Diagram .................
DS26503 T1/E1/J1 BITS Element LIST OF TABLES Table 2-1. T1-Related Telecommunications Specifications........................................................................9 Table 2-2. E1-Related Telecommunications Specifications .....................................................................10 Table 5-1. LQFP Pinout ............................................................................................................................23 Table 6-1. Transmit Clock Source ..........................
DS26503 T1/E1/J1 BITS Element 1. FEATURES 1.1 General 64-pin, 10mm x 10mm LQFP package 3.3V supply with 5V-tolerant inputs and outputs Evaluation kits IEEE 1149.1 JTAG Boundary Scan Driver source code available from the factory 1.2 Line Interface Requires a single master clock (MCLK) for E1, T1, or J1 operation. Master clock can be 2.048MHz, 4.096MHz, 8.192MHz, 12.8MHz (available in CPU interface mode only), or 16.384MHz. Option to use 1.544MHz, 3.088MHz, 6.176MHz, or 12.5552MHz for T1-only operation.
DS26503 T1/E1/J1 BITS Element 1.4 Framer/Formatter Full receive and transmit path transparency T1 framing formats include D4 and ESF E1 framing formats include FAS and CRC4 Detailed alarm and status reporting with optional interrupt support RLOF, RLOS, and RAIS alarms interrupt on change of state Japanese J1 support includes: − Ability to calculate and check CRC6 according to the Japanese standard − Ability to generate yellow alarm according to the Japanese standard 1.
DS26503 T1/E1/J1 BITS Element 2. SPECIFICATIONS COMPLIANCE The DS26503 meets all applicable sections of the latest telecommunications specifications including those in the following tables. Table 2-1. T1-Related Telecommunications Specifications ANSI T1.102 - Digital Hierarchy Electrical Interface ANSI T1.231 - Digital Hierarchy–Layer 1 in Service Performance Monitoring ANSI T1.
DS26503 T1/E1/J1 BITS Element Table 2-2. E1-Related Telecommunications Specifications ITUT G.703 Physical/Electrical Characteristics of G.703 Hierarchical Digital Interfaces ITUT G.736 Characteristics of Synchronous Digital Multiplex Equipment operating at 2048kbps ITUT G.742 Second-Order Digital Multiplex Equipment Operating at 8448kbps ITUT G.772 ITUT G.775 ITUT G.823 The control of jitter and wander within digital networks, which are based on 2.
DS26503 T1/E1/J1 BITS Element 3. BLOCK DIAGRAMS Figure 3-1.
DS26503 T1/E1/J1 BITS Element Figure 3-2. Loopback Mux Diagram (T1/E1 Modes Only) CLOCK FROM RX LIU RCLK JITTER ATTENUATOR ENABLED AND IN RX PATH + DATA TO RX FRAMER + DATA - DATA - DATA LOCAL LOOPBACK (LBCR.3) TX CLOCK CLOCK TO TX LIU JITTER ATTENUATOR ENABLED AND IN TX PATH + DATA + DATA FROM TX FORMATTER - DATA - DATA REMOTE LOOPBACK (LBCR.4) Figure 3-3. Transmit PLL Clock Mux Diagram TPCR.3 TPCR.4 TPCR.6 TPCR.7 IN SEL OUT SEL TPCR.5 TPCR.
DS26503 T1/E1/J1 BITS Element Figure 3-4.
DS26503 T1/E1/J1 BITS Element 4. PIN FUNCTION DESCRIPTION 4.1 Transmit PLL NAME TYPE PLL_OUT O TCLK I FUNCTION Transmit PLL Output. This pin can be selected to output the 1544kHz, 2048kHz, 64kHz, or 6312kHz output from the internal TX PLL or the internal signal, TX CLOCK. See Figure 3-3 and Figure 3-4. Transmit Clock Input. A 64kHz, 1.544MHz, 2.048MHz, or 6312kHz primary clock.
DS26503 T1/E1/J1 BITS Element 4.3 Receive Side NAME TYPE RCLK O RS O FUNCTION Receive Clock. Recovered 1.544MHz (T1), 2.048MHz (E1), or 6312kHz (G.703 Synchronization Interface). Receive Sync T1/E1 Mode: An extracted pulse, one RCLK wide, is output at this pin that identifies either frame (IOCR1.5 = 0) or multiframe (IOCR1.5 = 1) boundaries. If set to output frame boundaries, then through IOCR1.6, RS can also be set to output double-wide pulses on signaling frames in T1 mode.
DS26503 T1/E1/J1 BITS Element 4.4 Controller Interface NAME TYPE INT/ JACKS0 I/O TMODE1 I TMODE2 I TSTRST I BIS[1:0] I FUNCTION Active-Low Interrupt/Jitter Attenuator Clock Select 0 INT: Flags host controller during events, alarms, and conditions defined in the AD[7]/ RITD status registers. Active-low open-drain output. JACKS0: Hardware Mode: Jitter Attenuator Clock Select 0. Set this pin high for T1 mode operation when either a 2.048MHz, 4.096MHz, 8.192MHz or 16.
DS26503 T1/E1/J1 BITS Element NAME AD[5]/ RMODE1 TYPE I/O FUNCTION Data Bus D[5] or Address/Data Bus AD[5]/Receive Framing Mode Select Bit 1 A[5]: In nonmultiplexed bus operation (BIS[1:0] = 01), it serves as the data bus D[5]. AD[5]: In multiplexed bus operation (BIS[1:0] = 00), it serves as the multiplexed address/data bus AD[5]. RMODE1: In Hardware Mode (BIS[1:0] = 11), it selects the receive side operating mode.
DS26503 T1/E1/J1 BITS Element NAME TYPE FUNCTION Data Bus D[1] or Address/Data Bus AD[1]/Receive Mode Select 3/Master Out-Slave In A[1]: In nonmultiplexed bus operation (BIS[1:0] = 01), it serves as the data bus D[1]. AD[1]/ RMODE3/ MOSI I/O AD[1]: In multiplexed bus operation (BIS[1:0] = 00), it serves as the multiplexed address/data bus AD[1]. RMODE3: In Hardware Mode (BIS[1:0] = 11), this pin selects the receive side operating mode.
DS26503 T1/E1/J1 BITS Element NAME A4/CPHA/ L2 TYPE FUNCTION Address Bus Bit A[4]/Serial Port Clock Phase Select/Line Build-Out Select 2 A4: In nonmultiplexed bus operation (BIS[1:0] = 01), this pin serves as A[4]. In multiplexed bus operation (BIS[1:0] = 00), these pins are not used and should be tied low. I CPHA: In Serial Port Mode (BIS[1:0] = 10), this pin selects the serial port clock phase. See the functional timing diagrams for the Serial Port Interface for more information.
DS26503 T1/E1/J1 BITS Element NAME BTS/HBE TYPE I FUNCTION Bus Type Select/Transmit and Receive B8ZS/HDB3 Enable BTS: Strap high to select Motorola bus timing; strap low to select Intel bus timing. This pin controls the function of the RD (DS), ALE (AS), and WR (R/W) pins. If BTS = 1, then these pins assume the function listed in parentheses (). HBE: In Hardware Mode (BIS[1:0] = 11), this pin enables transmit and receive B8ZS/HDB3 when in T1/E1 operating modes.
DS26503 T1/E1/J1 BITS Element 4.5 JTAG NAME TYPE JTCLK I JTMS I JTDI I JTDO O JTRST I FUNCTION JTAG Clock. This clock input is typically a low frequency (less than 10MHz) 50% duty cycle clock signal. JTAG Mode Select (with Pullup). This input signal is used to control the JTAG controller state machine and is sampled on the rising edge of JTCLK. JTAG Data Input (with Pullup).
DS26503 T1/E1/J1 BITS Element 4.7 Power NAME TYPE DVDD — RVDD — TVDD — DVSS — RVSS — TVSS — FUNCTION Digital Positive Supply. 3.3V ±5%. Should be tied to the RVDD and TVDD pins. Receive Analog Positive Supply. 3.3V ±5%. Should be tied to the DVDD and TVDD pins. Transmit Analog Positive Supply. 3.3V ±5%. Should be tied to the DVDD and RVDD pins. Digital Signal Ground. 0.0V. Should be tied to the RVSS and TVSS pins. Receive Analog Signal Ground. 0.0V. Should be tied to the DVSS and TVSS pins.
DS26503 T1/E1/J1 BITS Element 5. PINOUT Table 5-1.
DS26503 T1/E1/J1 BITS Element O O O I I/O O O — O O O PARALLEL PORT TCLKO TNEGO TPOSO TSER TS RCLK RS N.C. RSER RAIS RLOF MODE SERIAL PORT TCLKO TNEGO TPOSO TSER TS RCLK RS N.C.
DS26503 T1/E1/J1 BITS Element PIN TYPE PARALLEL PORT MODE SERIAL PORT 60 I CS CS RLB 61 I RD (DS) — RMODE2 62 I WR (R/W) — TMODE3 63 I/O AD0 MIS0 TCSS0 64 I/O AD1 MOSI RMODE3 HARDWARE 25 of 122 FUNCTION Parallel Port Mode: Active-Low Chip Select Serial Port Mode: Active-Low Chip Select Hardware Mode: Remote Loopback Enable Parallel Port Mode: Active-Low Read Input (Data Strobe) Serial Port Mode: Unused, should be connected to VSS.
DS26503 T1/E1/J1 BITS Element 6. HARDWARE CONTROLLER INTERFACE In Hardware Controller mode, the parallel and serial port pins are reconfigured to provide direct access to certain functions in the port. Only a subset of the device’s functionality is available in hardware mode. Each register description throughout the data sheet indicates the functions that may be controlled in hardware mode and several alarm indicators that are available in both hardware and processor mode.
DS26503 T1/E1/J1 BITS Element 6.3 Line Build-Out Table 6-3. E1 Line Build-Out L2 PIN 13 0 0 1 1 1 1 L1 PIN 12 0 0 0 0 1 1 L0 PIN 11 0 1 0 1 0 1 APPLICATION 75Ω normal 120Ω normal 75Ω with high return loss (Note 2) 120Ω with high return loss (Note 2) Reserved Reserved N (NOTE 1) 1:2 1:2 1:2 1:2 — — RETURN LOSS N.M. N.M. 21dB 21dB — — Rt (NOTE 1) 0 0 6.2Ω 11.6Ω — — N (NOTE 1) 1:2 1:2 1:2 1:2 1:2 — — — RETURN LOSS N.M. N.M. N.M. N.M. N.M. — — — Rt (NOTE 1) 0 0 0 0 0 — — — Table 6-4.
DS26503 T1/E1/J1 BITS Element 6.5 Transmitter Operating Modes Table 6-6.Transmit Path Operating Mode TMODE3 PIN 62 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 Note 1: Note 2: TMODE2 PIN 48 0 0 0 0 1 1 1 1 1 1 0 0 0 0 1 1 1 1 TMODE1 PIN 49 0 0 1 1 0 0 0 1 1 1 0 0 1 1 0 0 1 1 TMODE0 PIN 14 0 1 0 1 0 0 1 0 0 1 0 1 0 1 0 1 0 1 TRANSMIT PATH OPERATING MODE T1 D4 T1 ESF J1 D4 J1 ESF E1 FAS E1 FAS + CAS (Note 1) Reserved E1 CRC4 E1 CRC4 + CAS (Note 1) Reserved E1 G.
DS26503 T1/E1/J1 BITS Element Table 6-8. MCLK Pre-Scaler for E1 Mode MPS1 PIN 16 0 0 0 0 1 1 1 1 MPS0 PIN 15 0 0 1 1 0 0 1 1 JACKS0 PIN 46 0 1 0 1 0 1 0 1 MCLK (MHz) 2.048 Reserved 4.096 Reserved 8.192 Reserved 16.384 Reserved 6.7 Other Hardware Controller Mode Features Table 6-9. Other Operational Modes PIN NAME RSM PIN 1 TSM PIN2 RLB PIN 60 TAIS PIN 10 HBE PIN 55 DESCRIPTION RS Mode Select: Selects frame or multiframe pulse at RS pin.
DS26503 T1/E1/J1 BITS Element 7. PROCESSOR INTERFACE The DS26503 is controlled via a nonmultiplexed (BIS[1:0] = 01) or a multiplexed (BIS[1:0] = 00) parallel bus. There is also a serial bus mode option, as well as a hardware mode of operation. The bus interface type is selected by BIS1 and BIS0 as shown in Table 7-1. Table 7-1. Port Mode Select BIS1 0 0 1 1 BIS0 0 1 0 1 PORT MODE Parallel Port Mode (Multiplexed) Parallel Port Mode (Nonmultiplexed) Serial Port Mode (SPI) Hardware Mode 7.
DS26503 T1/E1/J1 BITS Element are terminated when CS is removed. If CS is removed before all 8 bits of the data are read, the remaining data will be lost. If CS is removed before all 8 bits of data are written to the part, no write access will occur and the target register will not be updated. Note: During a Burst read access, data must be fetched internally to the part as the LSB of the previous byte is transmitted out.
DS26503 T1/E1/J1 BITS Element 7.3 Register Map Table 7-2.
DS26503 T1/E1/J1 BITS Element ADDRESS TYPE 44 45 46 47 48 49 4A 4B-4F 50 51 52 53 54-55 56 57 58 59 5A 5B 5C 5D 5E 5F 60-EF F0 F1 F2 F3 F4 F5 F6 F7 F8 F9 FA FB FC FD FE FF R/W R/W R/W R/W R/W R/W R/W — R R/W R/W R/W — R R R R R R R R R R — R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W REGISTER NAME Transmit Remote Alarm Bits Transmit Sa4 Bits Transmit Sa5 Bits Transmit Sa6 Bits Transmit Sa7 Bits Transmit Sa8 Bits Transmit Sa Bit Control Register Reserved Receive FDL Register Transmit
DS26503 T1/E1/J1 BITS Element 7.3.1 Power-Up Sequence The DS26503 contains an on-chip power-up reset function, which automatically clears the writeable register space immediately after power is supplied to the device. The user can issue a chip reset at any time. Issuing a reset will disrupt signals flowing through the DS26503 until the device is reprogrammed. The reset can be issued through hardware using the TSTRST pin or through software using the SFTRST function in the master mode register.
DS26503 T1/E1/J1 BITS Element 7.3.3 Mode Configuration Register Register Name: Register Description: Register Address: Bit # Name Default HW Mode 7 TMODE3 0 TMODE3 PIN 62 MCREG Mode Configuration Register 08h 6 TMODE2 0 TMODE2 PIN 48 5 TMODE1 0 TMODE1 PIN 49 4 TMODE0 0 TMODE0 PIN 14 3 RMODE3 0 RMODE3 PIN 64 2 RMODE2 0 RMODE2 PIN 61 1 RMODE1 0 RMODE1 PIN 4 0 RMODE0 0 RMODE0 PIN 3 Bit 0 to 3: Receive Mode Configuration (RMODE[3:0]).
DS26503 T1/E1/J1 BITS Element Bits 4 to 7: Transmit Mode Configuration (TMODE[3:0]). Used to select the operating mode of the transmit path for the DS26503. TMODE3 0 0 TMODE2 0 0 TMODE1 0 0 TMODE0 0 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 0 0 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 1 1 1 0 0 1 1 0 0 0 1 0 0 1 0 0 1 0 1 0 1 0 1 Note 1: Note 2: Transmit Path Operating Mode T1 D4 T1 ESF (Note: In this mode the TFSE (T1TCR2.6) bit should be set = 0.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode TPCR Transmit PLL Control Register 09h 7 TPLLOFS1 0 6 TPLLOFS0 0 5 PLLOS 0 4 TPLLIFS1 0 3 TPLLIFS0 0 2 TPLLSS 0 0 0 0 0 0 0 1 TCSS1 0 TCSS1 PIN 31 0 TCSS0 0 TCSS0 PIN 63 For more information on all the bits in the Transmit PLL control register, refer to Figure 3-3. Bits 0 and 1: Transmit Clock (TX CLOCK) Source Select (TCSS[1:0]).
DS26503 T1/E1/J1 BITS Element 7.4 Interrupt Handling Various alarms, conditions, and events in the DS26503 can cause interrupts. For simplicity, these are all referred to as events in this explanation. All STATUS registers can be programmed to produce interrupts. Each status register has an associated interrupt mask register. For example, SR1 (Status Register 1) has an interrupt control register called IMR1 (Interrupt Mask Register 1). Status registers are the only sources of interrupts in the DS26503.
DS26503 T1/E1/J1 BITS Element 7.6 Information Registers Information registers operate the same as status registers except they cannot cause interrupts. INFO3 register is a read-only register and it reports the status of the E1 synchronizer in real time. INFO3 information bits are not latched, and it is not necessary to precede a read of these bits with a write. 7.
DS26503 T1/E1/J1 BITS Element 8. T1 FRAMER/FORMATTER CONTROL REGISTERS The T1 framer portion of the DS26503 is configured via a set of five control registers. Typically, the control registers are only accessed when the system is first powered up. Once the DS26503 has been initialized, the control registers will only need to be accessed when there is a change in the system configuration.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: T1RCR2 T1 Receive Control Register 2 04h Bit # Name Default HW Mode 7 — 0 6 — 0 0 0 5 RB8ZS 0 HBE PIN55 4 — 0 3 — 0 2 — 0 1 RJC 0 0 RD4YM 0 0 0 0 0 0 Bit 0: Receive Side D4 Yellow Alarm Select (RD4YM) 0 = zeros in bit 2 of all channels 1 = a one in the S-bit position of frame 12 (J1 Yellow Alarm Mode) Bit 1: Receive Japanese CRC6 Enable (RJC) 0 = use ANSI/AT&T/ITU CRC6 calculation (normal operation) 1 = us
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode 7 TJC 0 RMODEx PINS T1TCR1 T1 Transmit Control Register 1 05h 6 TFPT 0 5 TCPT 0 4 — 0 3 — 0 2 — 0 1 — 0 0 TYEL 0 0 0 0 0 0 0 0 Bit 0: Transmit Yellow Alarm (TYEL) 0 = do not transmit yellow alarm 1 = transmit yellow alarm Bits 1 to 4: Unused, must be set = 0 for proper operation.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode 7 TB8ZS 0 HBE PIN 55 T1TCR2 T1 Transmit Control Register 2 06h 6 TFSE 1 5 — 0 4 FBCT2 0 3 FBCT1 0 2 TD4YM 0 1 — 0 0 TB7ZS 0 1 0 0 0 0 0 0 Bit 0: Transmit-Side Bit 7 Zero-Suppression Enable (TB7ZS) 0 = no stuffing occurs 1 = bit 7 forced to a 1 in channels with all 0s Bits 1 and 5: Unused, must be set = 0 for proper operation.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode T1CCR T1 Common Control Register 07h 7 — 0 6 — 0 5 — 0 4 TRAI-CI 0 3 TAIS-CI 0 2 — 0 1 PDE 0 0 — 0 0 0 0 0 0 0 0 0 Bits 0, 2, 5, 6, 7: Unused, must be set = 0 for proper operation. Bit 1: Pulse-Density Enforcer Enable (PDE). The framer always examines the transmit and receive data streams for violations of these, which are required by ANSI T1.
DS26503 T1/E1/J1 BITS Element Table 8-1. T1 Alarm Criteria ALARM Blue Alarm (AIS) (Note 1) SET CRITERIA CLEAR CRITERIA Over a 3ms window, five or fewer zeros are received Over a 3ms window, six or more zeros are received D4 Bit-2 Mode (T1RCR2.0 = 0) Bit 2 of 256 consecutive channels is set to zero for at least 254 occurrences Bit 2 of 256 consecutive channels is set to zero for less than 254 occurrences D4 12th F-bit Mode (T1RCR2.
DS26503 T1/E1/J1 BITS Element 9. E1 FRAMER/FORMATTER CONTROL REGISTERS The E1 framer portion of the DS26503 is configured via a set of two control registers. Typically, the control registers are only accessed when the system is first powered up. Once the DS26503 has been initialized, the control registers will only need to be accessed when there is a change in the system configuration. There is one receive control register (E1RCR) and one transmit control register (E1TCR).
DS26503 T1/E1/J1 BITS Element Table 9-1. E1 Sync/Resync Criteria FRAME OR MULTIFRAME LEVEL FAS CRC4 SYNC CRITERIA RESYNC CRITERIA FAS present in frame N and N + 2, and FAS not present in frame N + 1 G.706 4.1.1 4.1.2 Three consecutive incorrect FAS received Alternate: (E1RCR.
DS26503 T1/E1/J1 BITS Element 9.2 E1 Information Registers Register Name: Register Description: Register Address: INFO2 Information Register 2 12h Bit # Name Default HW Mode 7 — 0 6 — 0 5 — 0 4 — 0 3 — 0 2 CRCRC 0 1 FASRC 0 0 CASRC 0 X X X X X X X X Bit 0: CAS Resync Criteria Met Event (CASRC). Set when two consecutive CAS MF alignment words are received in error. Bit 1: FAS Resync Criteria Met Event (FASRC. Set when three consecutive FAS words are received in error.
DS26503 T1/E1/J1 BITS Element Table 9-2. E1 Alarm Criteria ALARM SET CRITERIA RLOF An RLOF condition exists on power-up prior to initial synchronization, when a resync criteria has been met, or when a manual resync has been initiated via E1RCR.0 255 or 2048 consecutive zeros received as determined by E1RCR.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode SR2 Status Register 2 16h 7 RYELC 0 6 RAISC 0 5 RLOSC 0 4 RLOFC 0 3 RYEL 0 X X X X X 2 RAIS 0 RAIS PIN 29 1 RLOS 0 RLOS PIN 32 0 RLOF 0 LOF PIN 30 Bit 0: Receive Loss of Frame Condition (RLOF). Set when the DS26503 is not synchronized to the received data stream. Bit 1: Receive Loss Of Signal Condition (RLOS). Set when 255 (or 2048 if E1RCR.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode IMR2 Interrupt Mask Register 2 17h 7 RYELC 0 6 RAISC 0 5 RLOSC 0 4 RLOFC 0 3 RYEL 0 2 RAIS 0 1 RLOS 0 0 RLOF 0 X X X X X X X X Bit 0: Receive Loss of Frame Condition (RLOF) 0 = interrupt masked 1 = interrupt enabled–interrupts on rising edge only Bit 1: Receive Loss Of Signal Condition (RLOS) 0 = interrupt masked 1 = interrupt enabled–interrupts on rising edge only Bit 2: Receive
DS26503 T1/E1/J1 BITS Element 10. I/O PIN CONFIGURATION OPTIONS Register Name: Register Description: Register Address: Bit # Name Default HW Mode IOCR1 I/O Configuration Register 1 01h 7 — 0 6 RSMS2 0 0 0 5 RSMS1 0 RSM PIN 1 4 RLOFF 0 3 TSDW 0 0 0 2 TSM 0 TSM PIN 2 1 TSIO 0 0 ODF 0 0 0 Bit 0: Output Data Format (ODF) 0 = bipolar data at TPOS and TNEG 1 = NRZ data at TPOS; TNEG = 0 Bit 1: TS I/O Select (TSIO). This bit determines whether the TS pin is an input or and output. See Table 10-1.
DS26503 T1/E1/J1 BITS Element Table 10-1. TS Pin Functions TRANSMIT MODE T1/E1 T1/E1 T1/E1 T1/E1 IOCR.3 IOCR.2 IOCR.1 0 0 0 0 0 0 1 1 0 1 0 1 TS FUNCTION Frame sync input Frame sync output Multiframe sync input Multiframe sync output Table 10-2. RLOF Pin Functions RECEIVE MODE T1/E1 T1/E1 IOCR.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode IOCR2 I/O Configuration Register 2 02h 7 RCLKINV 6 TCLKINV 5 RSINV 0 0 0 0 4 TSINV 3 — 2 — 1 — 0 — 0 0 0 0 0 0 0 0 0 0 0 0 Bits 0 to 3: Unused, must be set = 0 for proper operation.
DS26503 T1/E1/J1 BITS Element 11. T1 SYNCHRONIZATION STATUS MESSAGE The DS26503 has a BOC controller to handle SSM services in T1 mode. Table 11-1.
DS26503 T1/E1/J1 BITS Element 11.3 Receive BOC The receive BOC function is enabled by setting BOCC.4 = 1. The RFDL register will now operate as the receive BOC message and information register. The lower six bits of the RFDL register (BOC message bits) are preset to all ones. When the BOC bits change state, the BOC change of state indicator, SR3.0 will alert the host. The host will then read the RFDL register to get the BOC message.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: BOCC BOC Control Register 1Fh Bit # Name Default HW Mode 7 — 0 6 — 0 5 — 0 4 RBOCE 0 3 RBR 0 2 RBF1 0 1 RBF0 0 0 SBOC 0 0 0 0 0 0 0 0 0 Bit 0: Send BOC (SBOC). Set = 1 to transmit the BOC code placed in bits 0 to 5 of the TFDL register. Bits 1 and 2: Receive BOC Filter Bits (RBF0, RBF1).
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: RFDL (RFDL register bit usage when BOCC.4 = 1) Receive FDL Register 50h Bit # Name Default HW Mode 7 — 0 6 — 0 5 RBOC5 0 4 RBOC4 0 3 RBOC3 0 2 RBOC2 0 1 RBOC1 0 0 RBOC0 0 0 0 0 0 0 0 0 0 Bit 0: BOC Bit 0 (RBOC0) Bit 1: BOC Bit 1 (RBOC1) Bit 2: BOC Bit 2 (RBOC2) Bit 3: BOC Bit 3 (RBOC3) Bit 4: BOC Bit 4 (RBOC4) Bit 5: BOC Bit 5 (RBOC5) Bits 6 and 7: This bit position is unused when BOCC.4 = 1.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode SR3 Status Register 3 18h 7 RAIS-CI 0 6 LOTC 0 5 BOCC 0 4 RFDLAD 0 3 RFDLF 0 2 TFDLE 0 1 RMTCH 0 0 RBOC 0 X X X X X X X X Bit 0: Receive BOC Detector Change-of-State Event (RBOC). Set whenever the BOC detector sees a change of state to a valid BOC. The setting of this bit prompts the user to read the RFDL register. Bit 1: Receive FDL Match Event (RMTCH).
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode IMR3 Interrupt Mask Register 3 19h 7 RAIS-CI 0 6 LOTC 0 5 BOCC 0 4 RFDLAD 0 3 RFDLF 0 2 TFDLE 0 1 RMTCH 0 0 RBOC 0 X X X X X X X X Bit 0: Receive BOC Detector Change-of-State Event (RBOC) 0 = interrupt masked 1 = interrupt enabled Bit 1: Receive FDL Match Event (RMTCH) 0 = interrupt masked 1 = interrupt enabled Bit 2: TFDL Register Empty Event (TFDLE) 0 = interrupt masked 1 = int
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode SR4 Status Register 4 1Ah 7 — 0 6 RSA1 0 5 RSA0 0 4 TMF 0 3 TAF 0 2 RMF 0 1 RCMF 0 0 RAF 0 X X X X X X X X Bit 0: Receive Align Frame Event (RAF). (E1 only) Set every 250µs at the beginning of align frames. Used to alert the host that Si and Sa bits are available in the RAF and RNAF registers. Bit 1: Receive CRC4 Multiframe Event (RCMF).
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode IMR4 Interrupt Mask Register 4 1Bh 7 — 0 6 RSA1 0 5 RSA0 0 4 TMF 0 3 TAF 0 2 RMF 0 1 RCMF 0 0 RAF 0 X X X X X X X X Bit 0: Receive Align Frame Event (RAF) 0 = interrupt masked 1 = interrupt enabled Bit 1: Receive CRC4 Multiframe Event (RCMF) 0 = interrupt masked 1 = interrupt enabled Bit 2: Receive Multiframe Event (RMF) 0 = interrupt masked 1 = interrupt enabled Bit 3: Transmit
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode TFDL Transmit FDL Register 51h 7 TFDL7 0 6 TFDL6 0 5 TFDL5 0 4 TFDL4 0 3 TFDL3 0 2 TFDL2 0 1 TFDL1 0 0 TFDL0 0 0 0 0 1 1 1 0 0 Note: Also used to insert Fs framing pattern in D4 framing mode. The transmit FDL register (TFDL) contains the FDL information that is to be inserted on a byte-basis into the outgoing T1 data stream. The LSB is transmitted first.
DS26503 T1/E1/J1 BITS Element 12. E1 SYNCHRONIZATION STATUS MESSAGE The DS26503 provides access to both the transmit and receive Sa/Si bits. In E1, the Sa bits are used to transmit and receive the SSM. The primary method to access the Sa (and Si) bits is based on CRC4 multiframe access. An alternate method is based on double-frame access. Table 12-1. E1 SSM Messages QUALITY LEVEL 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 DESCRIPTION Quality unknown (existing sync network) Reserved Rec. G.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode RSiAF Receive Si Bits of the Align Frame 58h 7 SiF0 0 6 SiF2 0 5 SiF4 0 4 SiF6 0 3 SiF8 0 2 SiF10 0 1 SiF12 0 0 SiF14 0 X X X X X X X X Bit 0: Si Bit of Frame 14(SiF14) Bit 1: Si Bit of Frame 12(SiF12) Bit 2: Si Bit of Frame 10(SiF10) Bit 3: Si Bit of Frame 8(SiF8) Bit 4: Si Bit of Frame 6(SiF6) Bit 5: Si Bit of Frame 4(SiF4) Bit 6: Si Bit of Frame 2(SiF2) Bit 7: Si Bit of Frame
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode RRA Receive Remote Alarm 5Ah 7 RRAF1 0 6 RRAF3 0 5 RRAF5 0 4 RRAF7 0 3 RRAF9 0 2 RRAF11 0 1 RRAF13 0 0 RRAF15 0 X X X X X X X X Bit 0: Remote Alarm Bit of Frame 15(RRAF15) Bit 1: Remote Alarm Bit of Frame 13(RRAF13) Bit 2: Remote Alarm Bit of Frame 11(RRAF11) Bit 3: Remote Alarm Bit of Frame 9(RRAF9) Bit 4: Remote Alarm Bit of Frame 7(RRAF7) Bit 5: Remote Alarm Bit of Frame 5(RRA
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode RSa5 Receive Sa5 Bits 5Ch 7 RSa5F1 0 6 RSa5F3 0 5 RSa5F5 0 4 RSa5F7 0 3 RSa5F9 0 2 RSa5F11 0 1 RSa5F13 0 0 RSa5F15 0 X X X X X X X X Bit 0: Sa5 Bit of Frame 15(RSa5F15) Bit 1: Sa5 Bit of Frame 13(RSa5F13) Bit 2: Sa5 Bit of Frame 11(RSa5F11) Bit 3: Sa5 Bit of Frame 9(RSa5F9) Bit 4: Sa5 Bit of Frame 7(RSa5F7) Bit 5: Sa5 Bit of Frame 5(RSa5F5) Bit 6: Sa5 Bit of Frame 3(RSa5F3) Bit
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode RSa7 Receive Sa7 Bits 5Eh 7 RSa7F1 0 6 RSa7F3 0 5 RSa7F5 0 4 RSa7F7 0 3 RSa7F9 0 2 RSa7F11 0 1 RSa7F13 0 0 RSa7F15 0 X X X X X X X X Bit 0: Sa7 Bit of Frame 15(RSa7F15) Bit 1: Sa7 Bit of Frame 13(RSa7F13) Bit 2: Sa7 Bit of Frame 11(RSa7F11) Bit 3: Sa7 Bit of Frame 9(RSa7F9) Bit 4: Sa7 Bit of Frame 7(RSa7F7) Bit 5: Sa7 Bit of Frame 5(RSa7F5) Bit 6: Sa7 Bit of Frame 3(RSa7F3) Bit 7
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode TSiAF Transmit Si Bits of the Align Frame 42h 7 TsiF0 0 6 TsiF2 0 5 TsiF4 0 4 TsiF6 0 3 TsiF8 0 2 TsiF10 0 1 TsiF12 0 0 TsiF14 0 0 0 0 0 0 0 0 0 Bit 0: Si Bit of Frame 14(TsiF14) Bit 1: Si Bit of Frame 12(TsiF12) Bit 2: Si Bit of Frame 10(TsiF10) Bit 3: Si Bit of Frame 8(TsiF8) Bit 4: Si Bit of Frame 6(TsiF6) Bit 5: Si Bit of Frame 4(TsiF4) Bit 6: Si Bit of Frame 2(TsiF2) Bit 7:
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode TRA Transmit Remote Alarm 44h 7 TRAF1 0 6 TRAF3 0 5 TRAF5 0 4 TRAF7 0 3 TRAF9 0 2 TRAF11 0 1 TRAF13 0 0 TRAF15 0 0 0 0 0 0 0 0 0 Bit 0: Remote Alarm Bit of Frame 15(TRAF15) Bit 1: Remote Alarm Bit of Frame 13(TRAF13) Bit 2: Remote Alarm Bit of Frame 11(TRAF11) Bit 3: Remote Alarm Bit of Frame 9(TRAF9) Bit 4: Remote Alarm Bit of Frame 7(TRAF7) Bit 5: Remote Alarm Bit of Frame 5(TR
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode TSa5 Transmit Sa5 Bits 46h 7 TSa5F1 0 6 TSa5F3 0 5 TSa5F5 0 4 TSa5F7 0 3 TSa5F9 0 2 TSa5F11 0 1 TSa5F13 0 0 TSa5F15 0 0 0 0 0 0 0 0 0 Bit 0: Sa5 Bit of Frame 15(TSa5F15) Bit 1: Sa5 Bit of Frame 13(TSa5F13) Bit 2: Sa5 Bit of Frame 11(TSa5F11) Bit 3: Sa5 Bit of Frame 9(TSa5F9) Bit 4: Sa5 Bit of Frame 7(TSa5F7) Bit 5: Sa5 Bit of Frame 5(TSa5F5) Bit 6: Sa5 Bit of Frame 3(TSa5F3) Bit
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode TSa7 Transmit Sa7 Bits 48h 7 TSa7F1 0 6 TSa7F3 0 5 TSa7F5 0 4 TSa7F7 0 3 TSa7F9 0 2 TSa7F11 0 1 TSa7F13 0 0 TSa7F15 0 0 0 0 0 0 0 0 0 Bit 0: Sa7 Bit of Frame 15(TSa7F15) Bit 1: Sa7 Bit of Frame 13(TSa7F13) Bit 2: Sa7 Bit of Frame 11(TSa7F11) Bit 3: Sa7 Bit of Frame 9(TSa7F9) Bit 4: Sa7 Bit of Frame 7(TSa7F7) Bit 5: Sa7 Bit of Frame 5(TSa7F5) Bit 6: Sa7 Bit of Frame 3(TSa7F3) Bit
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode TSACR Transmit Sa Bit Control Register 4Ah 7 SiAF 0 6 SiNAF 0 5 RA 0 4 Sa4 0 3 Sa5 0 2 Sa6 0 1 Sa7 0 0 Sa8 0 0 0 0 0 0 0 0 0 Bit 0: Additional Bit 8 Insertion Control Bit (Sa8) 0 = do not insert data from the TSa8 register into the transmit data stream 1 = insert data from the TSa8 register into the transmit data stream Bit 1: Additional Bit 7 Insertion Control Bit (Sa7) 0 = do n
DS26503 T1/E1/J1 BITS Element 12.2 Alternate Sa/Si Bit Access Based on Double-Frame On the receive side, the RAF and RNAF registers will always report the data as it received in the Sa and Si bit locations. The RAF and RNAF registers are updated on align frame boundaries. The setting of the receive align frame bit in status register 4 (SR4.0) will indicate that the contents of the RAF and RNAF have been updated. The host can use the SR4.0 bit to know when to read the RAF and RNAF registers.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: RNAF Receive Non-Align Frame Register 57h Bit # Name Default HW Mode 7 Si 0 6 1 0 5 A 0 4 Sa4 0 3 Sa5 0 2 Sa6 0 1 Sa7 0 0 Sa8 0 X X X X X X X X Bit 0: Additional Bit 8 (Sa8) Bit 1: Additional Bit 7 (Sa7) Bit 2: Additional Bit 6 (Sa6) Bit 3: Additional Bit 5 (Sa5) Bit 4: Additional Bit 4 (Sa4) Bit 5: Remote Alarm (A) Bit 6: Frame Nonalignment Signal Bit (1). In normal operation this bit will be = 1.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: TNAF Transmit Non-Align Frame Register 41h Bit # Name Default 6 1 1 7 Si 0 5 A 0 4 Sa4 0 3 Sa5 0 Bit 0: Additional Bit 8 (Sa8) Bit 1: Additional Bit 7 (Sa7) Bit 2: Additional Bit 6 (Sa6) Bit 3: Additional Bit 5 (Sa5) Bit 4: Additional Bit 4 (Sa4) Bit 5: Remote Alarm (used to transmit the alarm A) Bit 6: Frame Nonalignment Signal Bit (1) Bit 7: International Bit (Si) 76 of 122 2 Sa6 0 1 Sa7 0 0 Sa8 0
DS26503 T1/E1/J1 BITS Element 13. LINE INTERFACE UNIT (LIU) The LIU in the DS26503 contains three sections: the receiver, which handles clock and data recovery; the transmitter, which waveshapes and drives the network line; and the jitter attenuator. These three sections are controlled by the line interface control registers (LIC1–LIC4), which are described below. The DS26503 can switch between T1 or E1 networks without changing any external components on either the transmit or receive side.
DS26503 T1/E1/J1 BITS Element 13.1 LIU Operation The LIU interfaces the T1, E1, and 6312kHz signals to the various types of network media through coupling transformers. The LIU transmit and receive functions are independent. For example, the receiver can be in T1 mode while the transmitter is in E1 mode. The 6312kHz transmission is an exception to the other modes. For transmission, 6312kHz is only available as a 0 to 3.3V signal on the TCLKO pin.
DS26503 T1/E1/J1 BITS Element 13.2.2 Receive G.703 Section 10 Synchronization Signal The DS26503 can receive a 2.048MHz square-wave synchronization clock as specified in Section 10 of ITU G.703. To use the DS26503 in this mode, set the mode configuration bits in the Mode Configuration Register (MCREG). 13.2.3 Monitor Mode Monitor applications in both E1 and T1 require various flat gain settings for the receive-side circuitry.
DS26503 T1/E1/J1 BITS Element The transmit line drive has two modes of operation: fixed gain or automatic gain. In the fixed gain mode, the transmitter outputs a fixed current into the network load to achieve a nominal pulse amplitude. In the automatic gain mode, the transmitter adjusts its output level to compensate for slight variances in the network load. See the Transmit Line Build-Out Control (TLBC) register for details. 13.3.
DS26503 T1/E1/J1 BITS Element the incoming jitter exceeds either 120 UIP-P (buffer depth is 128 bits) or 28 UIP-P (buffer depth is 32 bits), then the DS26503 will divide the internal nominal 32.768MHz (E1) or 24.704MHz (T1) clock by either 15 or 17 instead of the normal 16 to keep the buffer from overflowing. When the device divides by either 15 or 17, it also sets the Jitter Attenuator Limit Trip (JALT) bit in Status Register 1 (SR1.4). 13.
DS26503 T1/E1/J1 BITS Element 13.
DS26503 T1/E1/J1 BITS Element T1 Mode L2 L1 0 0 0 0 0 1 0 1 1 0 1 0 1 1 1 1 L0 0 1 0 1 0 1 0 1 APPLICATION DSX-1 (0 to 133 feet)/0dB CSU DSX-1 (133 to 266 feet) DSX-1 (266 to 399 feet) DSX-1 (399 to 533 feet) DSX-1 (533 to 655 feet) Reserved Reserved Reserved N (NOTE 1) 1:2 1:2 1:2 1:2 1:2 — — — RETURN LOSS N.M. N.M. N.M. N.M. N.M. — — — Rt (NOTE 1) 0 0 0 0 0 — — — Note 1: Transformer turns ratio. N.M.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode LIC2 Line Interface Control 2 31h 7 JACKS1 0 6 LIRST 0 5 IBPV 0 0 0 0 4 TAIS 0 TAIS PIN 10 3 JACKS0 0 JACKS0 PIN 46 2 — 0 1 SCLD 0 0 CLDS 0 0 0 0 Bit 0: Custom Line Driver Select (CLDS). Setting this bit to a one will redefine the operation of the transmit line driver. When this bit is set to a one and LIC1.5 = LIC1.6 = LIC1.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode LIC3 Line Interface Control 3 32h 7 CMIE 0 6 CMII 0 5 — 0 4 MM1 0 3 MM0 0 2 — 0 1 — 0 0 TAOZ 0 0 0 0 0 0 0 0 0 Bit 0: Transmit Alternate Ones and Zeros (TAOZ). Transmit a …101010… pattern at TTIP and TRING. 0 = disabled 1 = enabled Bits 1, 2, 5: Unused, must be set = 0 for proper operation.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: Bit # Name Default HW Mode 7 MPS1 0 MPS1 PIN 16 LIC4 Line Interface Control 4 33h 6 MPS0 0 MPS0 PIN 15 5 TT2 0 4 TT1 0 3 TT0 0 2 RT2 0 1 RT1 0 0 RT0 0 — — — — — — Bits 0 to 2: Receive Termination Select (RT0 to RT2) INTERNAL RECEIVE RT2 RT1 RT0 TERMINATION CONFIGURATION 0 0 0 Internal Receive-Side Termination Disabled 0 0 1 Internal Receive-Side 75Ω Enabled 0 1 0 Internal Receive-Side 100Ω Enabled 0 1 1 Inter
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: INFO1 Information Register 1 11h Bit # Name Default HW Mode 7 — 0 6 — 0 5 — 0 4 — 0 3 RL3 0 2 RL2 0 1 RL1 0 0 RL0 0 X X X X X X X X Bits 0 to 3: Receive Level Bits (RL0 to RL3). Real-time bits. RL3 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 RL2 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 RL1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 RL0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 RECEIVE LEVEL (dB) Greater than -2.5 -2.5 to -5.0 -5.0 to -7.5 -7.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: SR1 Status Register 1 14h Bit # Name Default HW Mode 7 — 0 6 — 0 5 — 0 4 JALT 0 3 — 0 2 TCLE 0 1 TOCD 0 0 — 0 X X X X X X X X Bits 0, 3, 5, 6, 7: Unused, must be set = 0 for proper operation. Bit 1: Transmit Open Circuit Detect Condition (TOCD). Set when the device detects that the TTIP and TRING outputs are open-circuited.
DS26503 T1/E1/J1 BITS Element Register Name: Register Description: Register Address: IMR1 Interrupt Mask Register 1 15h Bit # Name Default HW Mode 7 — 0 6 — 0 5 — 0 4 JALT 0 3 — 0 2 TCLE 0 1 TOCD 0 0 — 0 X X X X X X X X Bits 0, 3, 5, 6, 7: Unused, must be set = 0 for proper operation.
DS26503 T1/E1/J1 BITS Element 13.8 Recommended Circuits Figure 13-4. Software-Selected Termination, Metallic Protection Table 13-1. Component List (Software-Selected Termination, Metallic Protection) NAME F1 and F2 S1 and S2 S3 andS4 T1 and T2 T3 and T4 Note 1: Note 2: Note 3: Note 4: DESCRIPTION 1.25A slow blow fuse 25V (max) transient suppressor 77V (max) transient suppressor Transformer 1:1CT and 1:136CT (5.0V, SMT) (Note 1) Transformer 1:1CT and 1:2CT (3.
DS26503 T1/E1/J1 BITS Element Figure 13-5. Software-Selected Termination, Longitudinal Protection Table 13-2. Component List (Software-Selected Termination, Longitudinal Protection) NAME F1 to F4 S1 and S2 S3, S4, S5, S6 S7 and S8 T1 and T2 T3 and T4 Note 1: Note 2: Note 3: Note 4: Note 5: DESCRIPTION 1.25A slow blow fuse 25V (max) transient suppressor (Note 1) 180V (max) transient suppressor (Note 1) 40V (max) transient suppressor Transformer 1:1CT and 1:136CT (5.
DS26503 T1/E1/J1 BITS Element Figure 13-6. E1 Transmit Pulse Template 1.2 1.1 269ns SCALED AMPLITUDE (in 75 ohm systems, 1.0 on the scale = 2.37Vpeak in 120 ohm systems, 1.0 on the scale = 3.00Vpeak) 1.0 0.9 0.8 0.7 G.703 Template 194ns 0.6 0.5 219ns 0.4 0.3 0.2 0.1 0 -0.1 -0.2 -250 -200 -150 -100 -50 0 50 100 150 200 250 TIME (ns) Figure 13-7. T1 Transmit Pulse Template 1.2 MAXIMUM CURVE UI Time Amp. 1.1 1.0 -0.77 -0.39 -0.27 -0.27 -0.12 0.00 0.27 0.35 0.93 1.16 0.9 0.
DS26503 T1/E1/J1 BITS Element Figure 13-8. Jitter Tolerance (T1 Mode) UNIT INTERVALS (UIpp) 1K DS26503 Tolerance 100 TR 62411 (Dec. 90) 10 ITU-T G.823 1 0.1 10 1 100 1K 10K 100K FREQUENCY (Hz) Figure 13-9. Jitter Tolerance (E1 Mode) UNIT INTERVALS (UIpp) 1k DS26503 Tolerance 100 40 10 1.5 1 0.1 Minimum Tolerance Level as per ITU G.823 1 10 20 100 1k FREQUENCY (Hz) 93 of 122 0.2 2.
DS26503 T1/E1/J1 BITS Element Figure 13-10. Jitter Attenuation (T1 Mode) JITTER ATTENUATION (dB) 0 -20 Curve A TR 62411 (Dec. 90) Prohibited Area Curve B -40 DS26503 T1 MODE -60 1 10 100 1K FREQUENCY (Hz) 10K 100K JITTER ATTENUATION (dB) Figure 13-11. Jitter Attenuation (E1 Mode) 0 ITU G.
DS26503 T1/E1/J1 BITS Element 14. LOOPBACK CONFIGURATION Register Name: Register Description: Register Address: LBCR Loopback Control Register 20h Bit # Name Default HW Mode 7 — 0 6 — 0 5 — 0 4 — 0 3 LLB 0 0 0 0 0 0 2 RLB 0 RLB PIN 60 1 — 0 0 — 0 0 0 Bits 0, 1, 4 to 7: Unused, must be set = 0 for proper operation. Bit 2: Remote Loopback (RLB). In this loopback, data received at RTIP and RRING will be looped back to the transmit LIU.
DS26503 T1/E1/J1 BITS Element 15. 6312kHz SYNCHRONIZATION INTERFACE The DS26503 has a 6312kHz Synchronization Interface mode of operation that conforms with Appendix II.2 of G.703, with the exception that the DS26503 transmits a square wave as opposed to the sine wave that is defined in the G.703 specification. 15.1 Receive 6312kHz Synchronization Interface Operation On the receive interface, a 6312kHz sine wave is accepted conforming to the input port requirements of G.703 Appendix II.
DS26503 T1/E1/J1 BITS Element 16. JTAG BOUNDARY SCAN ARCHITECTURE AND TEST ACCESS PORT The DS26503 supports the standard IEEE 1149.1 instruction codes SAMPLE/PRELOAD, BYPASS, and EXTEST. Optional public instructions included are HIGHZ, CLAMP, and IDCODE. The DS26503 contains the following as required by IEEE 1149.
DS26503 T1/E1/J1 BITS Element TAP Controller State Machine The TAP controller is a finite state machine that responds to the logic level at JTMS on the rising edge of JTCLK. See Figure 16-2. Test-Logic-Reset Upon power-up, the TAP controller will be in the test-logic-reset state. The instruction register will contain the IDCODE instruction. All system logic of the device will operate normally. Run-Test-Idle The run-test-idle is used between scan operations or during specific tests.
DS26503 T1/E1/J1 BITS Element Select-IR-Scan All test registers retain their previous state. The instruction register will remain unchanged during this state. With JTMS LOW, a rising edge on JTCLK moves the controller into the capture-IR state and will initiate a scan sequence for the instruction register. JTMS HIGH during a rising edge on JTCLK puts the controller back into the test-logic-reset state.
DS26503 T1/E1/J1 BITS Element Figure 16-2.
DS26503 T1/E1/J1 BITS Element 16.1 Instruction Register The instruction register contains a shift register as well as a latched parallel output and is 3 bits in length. When the TAP controller enters the shift-IR state, the instruction shift register will be connected between JTDI and JTDO. While in the shift-IR state, a rising edge on JTCLK with JTMS LOW will shift the data one stage toward the serial output at JTDO.
DS26503 T1/E1/J1 BITS Element IDCODE When the IDCODE instruction is latched into the parallel instruction register, the identification test register is selected. The device identification code will be loaded into the identification register on the rising edge of JTCLK following entry into the capture-DR state. Shift-DR can be used to shift the identification code out serially via JTDO. During test-logic-reset, the identification code is forced into the instruction register’s parallel output.
DS26503 T1/E1/J1 BITS Element Table 16-4.
DS26503 T1/E1/J1 BITS Element CONTROL CELL CELL # NAME TYPE 29 TNEGO observe_only 30 TCLKO observe_only 31 TCLK observe_only 32 ALE_A7 observe_only 33 A6 observe_only 34 A5 observe_only 35 A4 observe_only 36 A3 observe_only 37 A2 observe_only 38 A1 observe_only 39 A0 observe_only 40 AD7 Output3 1 41 AD6 Output3 1 42 AD5 Output3 1 43 AD4 Output3 1 44 AD3 Output3 1 45 AD2 Output3 1 * This pin is not bonded out on the DS26503 package, however, it mu
DS26503 T1/E1/J1 BITS Element 17. FUNCTIONAL TIMING DIAGRAMS 17.1 Processor Interface 17.1.1 Parallel Port Mode See the AC Timing section. 17.1.2 SPI Serial Port Mode Figure 17-1. SPI Serial Port Access, Read Mode, CPOL = 0, CPHA = 0 SCK CS MOSI 1 0 0 0 0 0 0 MSB A7 A6 LSB MSB A5 A4 A3 A2 A1 A0 B LSB MISO D7 D6 D5 D4 D3 D2 D1 MSB D0 LSB Figure 17-2.
DS26503 T1/E1/J1 BITS Element Figure 17-4. SPI Serial Port Access, Read Mode, CPOL = 1, CPHA = 1 SCK CS MOSI 1 0 0 0 0 0 0 MSB A7 A6 LSB MSB A5 A4 A3 A2 A1 A0 B LSB MISO D7 D6 D5 D4 D3 D2 D1 MSB D0 LSB Figure 17-5. SPI Serial Port Access, Write Mode, CPOL = 0, CPHA = 0 SCK CS MOSI 0 0 0 0 0 0 0 MSB A7 A6 LSB MSB A5 A4 A3 A2 A1 A0 B D7 LSB MSB D6 D5 D4 D3 D2 D1 MISO Figure 17-6.
DS26503 T1/E1/J1 BITS Element Figure 17-7. SPI Serial Port Access, Write Mode, CPOL = 0, CPHA = 1 SCK CS MOSI 0 0 0 0 0 0 0 A7 MSB A6 A5 A4 A3 A2 A1 A0 D7 B D6 D5 D4 D3 D2 D1 LSB MSB LSB MSB D0 LSB MISO Figure 17-8.
DS26503 T1/E1/J1 BITS Element 18. OPERATING PARAMETERS ABSOLUTE MAXIMUM RATINGS Voltage Range on Any Pin Relative to Ground………………………………………………………-1.0V to +6.0V Operating Temperature Range for DS26503L…………………………………………………………0°C to +70°C Operating Temperature Range for DS26503LN……………………………………………-40°C to +85°C (Note 1) Storage Temperature Range………………………………………………………………………...-55°C to +125°C Soldering Temperature………………………………………………….….
DS26503 T1/E1/J1 BITS Element Table 18-5. DC Characteristics (VDD = 3.3V ±5%, TA = 0°C to +70°C for DS26503L; VDD = 3.3V ±5%, TA = -40°C to +85°C for DS26503LN.) PARAMETER SYMBOL MIN TYP MAX UNITS 85 150 mA +1.0 μA 6 1.0 μA 7 Supply Current IDD Input Leakage IIL Output Leakage ILO Output Current (2.4V) IOH -1.0 mA Output Current (0.4V) IOL +4.0 mA Note 6: Note 7: -1.0 0.0V < VIN < VDD Applied to INT when three-stated.
DS26503 T1/E1/J1 BITS Element 19. AC TIMING PARAMETERS AND DIAGRAMS Capacitive test loads are 40pF for bus signals and 20pF for all others. 19.1 Multiplexed Bus Table 19-1. AC Characteristics, Multiplexed Parallel Port (VDD = 3.3V ±5%, TA = 0°C to +70°C for DS26503L; VDD = 3.3V ±5%, TA = -40°C to +85°C for DS26503LN.
DS26503 T1/E1/J1 BITS Element Figure 19-1. Intel Bus Read Timing (BTS = 0 / BIS[1:0] = 00) t CYC ALE WR PWASH t ASD t ASD t ASED RD PWEL PWEH t CH t CS CS t ASL t DHR t DDR AD0-AD7 t AHL Figure 19-2.
DS26503 T1/E1/J1 BITS Element Figure 19-3.
DS26503 T1/E1/J1 BITS Element 19.2 Nonmultiplexed Bus Table 19-2. AC Characteristics, Non-Mux Parallel Port (VDD = 3.3V ±5%, TA = 0°C to +70°C for DS26503L; VDD = 3.3V ±5%, TA = -40°C to +85°C for DS26503LN.
DS26503 T1/E1/J1 BITS Element Figure 19-4. Intel Bus Read Timing (BTS = 0 / BIS[1:0] = 01) A0 to A7 Address Valid D0 to D7 Data Valid t5 5ns min/20ns max WR t1 0ns min 0ns min t2 CS t3 t4 75ns max RD 0ns min Figure 19-5.
DS26503 T1/E1/J1 BITS Element Figure 19-6. Motorola Bus Read Timing (BTS = 1 / BIS[1:0] = 01) A0 to A7 Address Valid D0 to D7 Data Valid 5ns min. / 20ns max. t5 R/W t1 CS 0ns min. 0ns min. t2 t3 t4 0ns min. 75ns max. DS Figure 19-7. Motorola Bus Write Timing (BTS = 1 / BIS[1:0] = 01) A0 to A7 Address Valid D0 to D7 10ns min. R/W t1 t7 t8 10ns min. 0ns min. CS 0ns min. DS t2 t6 75ns min. 115 of 122 t4 0ns min.
DS26503 T1/E1/J1 BITS Element 19.3 Serial Bus Table 19-3. AC Characteristics, Serial Bus (VDD = 3.3V ±5%, TA = 0°C to +70°C for DS26503L; VDD = 3.3V ±5%, TA = -40°C to +85°C for DS26503LN.
DS26503 T1/E1/J1 BITS Element Figure 19-8. SPI Interface Timing Diagram, CPHA = 0, BIS[1:0] = 10 CS INPUT 1 3 5 CLK INPUT CPOL = 0 4 2 CLK INPUT CPOL = 1 5 4 8 9 MISO INPUT SLAVE MSB 6 MOSI OUTPUT BITS 6-1 BITS 6-1 MSB NOTE 11 10 7 SLAVE LSB 11 LSB NOTE: NOT DEFINED, BUT USUALLY MSB OF CHARACTER JUST RECEIVED. Figure 19-9.
DS26503 T1/E1/J1 BITS Element 19.4 Receive Side AC Characteristics Table 19-4. Receive Side AC Characteristics (VDD = 3.3V ±5%, TA = 0°C to +70°C for DS26503L; VDD = 3.3V ±5%, TA = -40°C to +85°C for DS26503LN.) (Note 1, Figure 19-10) PARAMETER SYMBOL RCLK Period MIN RCLK to RSER Delay tCH tCL tCH tCL tD1 RCLK to RS Delay tD2 RCLK Pulse Width MAX 488 648 158.4 tCP RCLK Pulse Width TYP 200 200 150 150 Note 1: The timing parameters listed in this table are guaranteed by design (GBD).
DS26503 T1/E1/J1 BITS Element 19.5 Transmit Side AC Characteristics Table 19-5. Transmit Side AC Characteristics (VDD = 3.3V ±5%, TA = -40°C to +85°C.) (Note 1 and Figure 19-11) PARAMETER TCLK Period SYMBOL MIN TYP MAX UNITS NOTES 2 3 4 25 ns ns ns ns ns ns ns 5, 6 488 648 158.
DS26503 T1/E1/J1 BITS Element Figure 19-11. Transmit Timing, T1/E1 t CP t CL tF tR t CH TCLK RCLK, JA CLOCK4 PLL_OUT t D3 TX CLOCK3 t SU TSER t HD t D2 1 TS_8K_4 TS1 t SU 2 TS2 TS_8K_4 (REFER TO THE TRANSMIT PLL BLOCK DIAGRAM, Figure 3-3.) NOTE 1: TS IN OUTPUT MODE. NOTE 2: TS IN INPUT MODE. NOTE 3: TX CLOCK IS THE INTERNAL CLOCK THAT DRIVES THE TRANSMIT SECTION. THE SOURCE OF THIS SIGNAL DEPENDS ON THE CONFIGURATION OF THE TRANSMIT PLL.
DS26503 T1/E1/J1 BITS Element 20. REVISION HISTORY REVISION 070904 DESCRIPTION New product release. Updated Table 2-1 and Table 2-2. 032405 Replaced the older recommended LIU circuits in Section 13.8 with newer versions (Figure 13-4 and Figure 13-5, Table 13-1 and Table 13-2). Modified the value of tDD in Table 19-5. Added timing information to Table 19-5 and updated Figure 19-11. Corrected the bit order for the TCPR register. Bits 6 and 7 were reversed. Bits 3 and 4 were reversed.
DS26503 T1/E1/J1 BITS Element 21. PACKAGE INFORMATION (The package drawing(s) in this data sheet may not reflect the most current specifications. The package number provided for each package is a link to the latest package outline information.) 64-Pin LQFP (56-G4019-001) 122 of 122 Maxim/Dallas Semiconductor cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim/Dallas Semiconductor product. No circuit patent licenses are implied.