DS26101 datasheet, PDF - EEWORLD Datasheet

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DS26101: Description8-Port TDM-to-ATM PHY; CategoryWireless rf/communication Telecom circuit; File Size529KB，62 Pages; ManufacturerMaxim; Websitehttps://www.maximintegrated.com/en.html

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DS26101 Overview

8-Port TDM-to-ATM PHY

DS26101 Parametric

Parameter Name	Attribute value
Is it Rohs certified?	incompatible
Maker	Maxim
Parts packaging code	BGA
package instruction	17 X 17 MM, CSBGA-256
Contacts	256
Reach Compliance Code	_compli
app	ATM
JESD-30 code	S-PBGA-B256
JESD-609 code	e0
length	17 mm
Number of functions	1
Number of terminals	256
Maximum operating temperature	85 °C
Minimum operating temperature	-40 °C
Package body material	PLASTIC/EPOXY
encapsulated code	LBGA
Encapsulate equivalent code	BGA256,16X16,40
Package shape	SQUARE
Package form	GRID ARRAY, LOW PROFILE
Peak Reflow Temperature (Celsius)	245
power supply	3.3 V
Certification status	Not Qualified
Maximum seat height	1.5 mm
Nominal supply voltage	3.3 V
surface mount	YES
Telecom integrated circuit types	ATM/SONET/SDH NETWORK INTERFACE
Temperature level	INDUSTRIAL
Terminal surface	Tin/Lead (Sn/Pb)
Terminal form	BALL
Terminal pitch	1 mm
Terminal location	BOTTOM
Maximum time at peak reflow temperature	NOT SPECIFIED
width	17 mm

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DS26101

8-Port TDM-to-ATM PHY

www.maxim-ic.com

GENERAL DESCRIPTION

On the transmit side, the DS26101 receives ATM cells

from an ATM device through a UTOPIA II interface,

provides cell buffering (up to 4 cells), HEC generation

and insertion, cell scrambling, and converts the data

to a serial stream appropriate for interfacing to a

T1/E1 framer or transceiver. On the receive side, the

DS26101 receives a TDM stream from a T1/E1 framer

or transceiver; searches for the cell alignment; verifies

the HEC; provides cell filtering, descrambling, and cell

buffering; and passes the cells to an ATM device

through the UTOPIA II interface. Other low-level traffic

management functions are selectable for the transmit

and receive paths. The DS26101 can also be used in

fractional T1/E1 applications.

The DS26101 maps ATM cells to T1/E1 TDM frames

as specified in ATM Forum Specifications af-phy-

0016.000 and af-phy-0064.000. In the receive

direction, the cell delineation mechanism used for

finding ATM cell boundary within T1/E1 frame is

performed as per ITU I.432. The DS26101 provides a

mapping solution for up to 8 T1/E1 TDM ports. The

terms physical layer (PHY) and line side are used

synonymously in this document and refer to the

device interfacing with the line side of the DS26101.

The terms ATM layer and system side are used

synonymously and refer to the DS26101’s UTOPIA II

interface.

FEATURES

Supports 8 T1/E1 TDM Ports

Supports Fractional T1/E1

Compliant to ATM Forum Specifications for ATM

Over T1 and E1

Standard UTOPIA II Interface to the ATM Layer

Configurable UTOPIA Address Range

Configurable Tx FIFO Depth to 2, 3, or 4 Cells

Optional Payload Scrambling in Transmit

Direction and Descrambling in Receive Direction

per ITU I.432

Optional HEC Insertion in Transmit Direction with

Programmable COSET Polynomial Addition

HEC-Based Cell Delineation

Single-Bit HEC Error Correction in the Receive

Direction

Receive HEC-Errored Cell Filtering

Receive Idle/Unassigned Cell Filtering

User-Definable Cell Filtering

8-Bit Mux/Nonmux, Motorola/Intel Microprocessor

Interface

Internal Clock Generator Eliminates External

High-Speed Clocks

Internal One-Second Timer

Detects/Reports Up to Eight External Status

Signals with Interrupt Support

IEEE 1149.1 JTAG Boundary Scan Support

17mm x 17mm, 256-pin CSBGA

FUNCTIONAL DIAGRAM

APPLICATIONS

DSLAMS

ATM Over T1/E1

Routers

IMA

8 TDM

PORTS

Dallas

Semiconductor

ORDERING INFORMATION

UTOPIA II

PART

DS26101

TEMP RANGE

-40°C to +85°C

PIN-PACKAGE

256 CSBGA

DS26101

Note:

Some revisions of this device may incorporate deviations from published specifications known as errata. Multiple revisions of any device

may be simultaneously available through various sales channels. For information about device errata, click here:

www.maxim-ic.com/errata.

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REV: 032503

DS26101 8-Port TDM-to-ATM PHY

TABLE OF FIGURES

Figure 4-1. Block Diagram ...........................................................................................................7

Figure 7-1. Polling Phase and Selection Phase at Transmit Interface .......................................17

Figure 7-2. End and Restart of Cell at Transmit Interface ..........................................................18

Figure 7-3. Transmission to PHY Paused for Three Cycles.......................................................18

Figure 7-4. Example of Direct Status Indication, Transmit Direction ..........................................19

Figure 7-5. Transmit Cell Flow and Processing .........................................................................20

Figure 7-6. Transmit Framer Interface in TFP Mode for T1........................................................21

Figure 7-7. Transmit Framer Interface in Gapped-Clock Mode for T1 .......................................21

Figure 7-8. Transmit Framer Interface in TFP Mode for E1 .......................................................22

Figure 7-9. Transmit Framer Interface in Gapped-Clock Mode for E1 .......................................22

Figure 8-1. Receive Framer Interface in RFP Mode for T1 ........................................................23

Figure 8-2. Receive Framer Interface in Gapped-Clock Mode for T1 ........................................24

Figure 8-3. Receive Framer Interface in RFP Mode for E1 ........................................................24

Figure 8-4. Receive Framer Interface in Gapped-Clock Mode for E1 ........................................24

Figure 8-5. Cell Delineation State Diagram................................................................................25

Figure 8-6. Header Correction State Machine............................................................................26

Figure 8-7. Polling Phase and Selection at Receive Interface ...................................................27

Figure 8-8. End and Restart of Cell Transmission at Receive Interface.....................................27

Figure 8-9. Example Direct Status Indication, Receive Direction ...............................................28

Figure 10-1. Accessing Tx PMON Counter ................................................................................33

Figure 10-2. Accessing Rx PMON Counters..............................................................................39

Figure 11-1. JTAG Functional Block Diagram............................................................................44

Figure 11-2. TAP Controller State Diagram ...............................................................................46

Figure 13-1. Intel Bus Read Timing (BTS = 0/MUX = 1) ............................................................52

Figure 13-2. Intel Bus Write Timing (BTS = 0/MUX = 1) ............................................................53

Figure 13-3.Motorola Bus Timing (BTS = 1/MUX = 1) ...............................................................53

Figure 13-4. Intel Bus Read Timing (BTS = 0/MUX = 0) ............................................................54

Figure 13-5. Intel Bus Write Timing (BTS = 0/MUX = 0) ............................................................55

Figure 13-6. Motorola Bus Read Timing (BTS = 1/MUX = 0) .....................................................55

Figure 13-7. Motorola Bus Write Timing (BTS = 1/MUX = 0) .....................................................55

Figure 13-8. Setup/Hold Time Definition ....................................................................................57

Figure 13-9. Delay Time Definition.............................................................................................57

Figure 13-10. JTAG Interface Timing Diagram ..........................................................................57

Figure 15-1. User-Network Interface Application .......................................................................59

Figure 15-2. DS26101 Interfacing with Dallas Framer in Framing-Pulse Mode .........................60

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DS26101 8-Port TDM-to-ATM PHY

LIST OF TABLES

Table 5-A. Pin Description List.....................................................................................................8

Table 9-A. Register Map ............................................................................................................29

Table 11-A. Instruction Codes for IEEE 1149.1 Architecture .....................................................47

Table 11-B. ID Code Structure...................................................................................................47

Table 11-C. Device ID Codes ....................................................................................................47

Table 11-D. Boundary Scan Control Bits ...................................................................................48

Table 13-A. AC Characteristics—Multiplexed Parallel Port (MUX = 1) ......................................52

Table 13-B. AC Characteristics—Nonmultiplexed Parallel Port (MUX = 1)................................54

Table 13-C. Framer Interface AC Characteristics ......................................................................56

Table 13-D. UTOPIA Transmit AC Characteristics ....................................................................56

Table 13-E. UTOPIA Receive AC Characteristics......................................................................56

Table 13-F. JTAG Interface Timing............................................................................................57

Table 13-G. System Clock AC Characteristics...........................................................................58

Table 14-A. Thermal Properties, Natural Convection.................................................................58

Table 14-B. Theta-JA (q

) vs. Airflow........................................................................................58

Table 15-A. Suggested Clock Edge Configurations ...................................................................60

Table 15-B. Fractional T1/E1 Register Settings .........................................................................60

4 of 62

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