DS33R41+ Maxim Integrated Products, DS33R41+ Datasheet - Page 98

DS33R41+

Manufacturer Part Number

DS33R41+

Description

IC TXRX ETHERNET MAP 400-BGA

Manufacturer

Maxim Integrated Products

Type

Transceiverr

Datasheet

1.DS33R41.pdf (335 pages)

Specifications of DS33R41+

Number Of Drivers/receivers

4/4

Protocol

T1/E1/J1

Voltage - Supply

3.14 V ~ 3.47 V

Mounting Type

Surface Mount

Package / Case

400-BGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DS33R41 Inverse-Multiplexing Ethernet Mapper with Quad Integrated T1/E1/J1 Transceivers

10.20 Line Interface Unit (LIU)

The LIU contains three sections: the receiver that handles clock and data recovery, the transmitter that

waveshapes and drives the T1 line, and the jitter attenuator. These three sections are controlled by the line

interface control registers (LIC1–LIC4), which are described in the following sections. The LIU has its own T1/E1

mode-select bit and can operate independently of the framer function.

The transceiver can switch between T1 or E1 networks without changing external components on the transmit or

receive side.

Figure 10-8

shows a network connection using minimal components. In this configuration, the

transceiver can connect to T1, J1, or E1 (75Ω or 120Ω) without component changes. The receiver can adjust the

120Ω termination to 100Ω or 75Ω. The transmitter can adjust its output impedance to provide high return-loss

characteristics for 120Ω, 100Ω, and 75Ω lines. Other components can be added to this configuration to meet

safety and network protection requirements (Section 10.24).

10.20.1 LIU Operation

The analog AMI/HDB3 waveform off the E1 line or the AMI/B8ZS waveform off of the T1 line is transformer-

coupled into the RTIP and RRING pins of the device. The user has the option to use internal termination, software

selectable for 75Ω/100Ω/120Ω applications, or external termination. The LIU recovers clock and data from the

analog signal and passes it through the jitter-attenuation mux outputting the received line clock at RCLKOn and

bipolar or NRZ data at RPOSO and RNEGO. The transceiver contains an active filter that reconstructs the analog-

received signal for the nonlinear losses that occur in transmission. The receive circuitry also is configurable for

various monitor applications. The device has a usable receive sensitivity of 0dB to -43dB for E1 and 0dB to -36dB

for T1, which allow the device to operate on 0.63mm (22AWG) cables up to 2.5km (E1) and 6k feet (T1) in length.

Data input at TPOSI and TNEGI is sent through the jitter-attenuation mux to the waveshaping circuitry and line

driver. The transceiver drives the E1 or T1 line from the TTIP and TRING pins through a coupling transformer. The

line driver can handle both CEPT 30/ISDN-PRI lines for E1 and long-haul (CSU) or short-haul (DSX-1) lines for T1.

10.20.2 Receiver

The receiver contains a digital clock recovery system. The device couples to the receive E1 or T1 twisted pair (or

coaxial cable in 75Ω E1 applications) through a 1:1 transformer. See

Table 10-13

for transformer details. The

device has the option of using software-selectable termination requiring only a single fixed pair of termination

resistors.

The transceiver’s LIU is designed to be fully software selectable for E1 and T1, requiring no change to any external

resistors for the receive side. The receive side allows the user to configure the transceiver for 75Ω, 100Ω, or 120Ω

receive termination by setting the RT1 (TR.LIC4.1) and RT0 (TR.LIC4.0) bits. When using the internal termination

feature, the resistors labeled R in

Figure 10-8

should be 60Ω each. If external termination is used, RT1 and RT0

should be set to 0 and the resistors labeled R in

Figure 10-8

should be 37.5Ω, 50Ω, or 60Ω each, depending on

the line impedance.

There are two ranges of user-selectable receive sensitivity for T1 and E1. The EGL bit of TR.LIC1 (TR.LIC1.4)

selects the full or limited sensitivity. The resultant E1 or T1 clock derived from MCLK is multiplied by 16 through an

internal PLL and fed to the clock recovery system. The clock recovery system uses the clock from the PLL circuit to

form a 16-times over-sampler that is used to recover the clock and data. This over-sampling technique offers

outstanding performance to meet jitter tolerance specifications shown in

Figure

10-11.

Normally, the clock that is output at the RCLKn pin is the recovered clock from the E1 AMI/HDB3 or T1 AMI/B8ZS

waveform presented at the RTIP and RRING inputs. If the jitter attenuator is placed in the receive path (as is the

case in most applications), the jitter attenuator restores the RCLKn to an approximate 50% duty cycle. If the jitter

attenuator is either placed in the transmit path or is disabled, the RCLKn output can exhibit slightly shorter high

cycles of the clock. This is because of the highly over-sampled digital-clock recovery circuitry. See the Receive AC

Timing Characteristics in Section

14.10

for more details. When no signal is present at RTIP and RRING, a receive

carrier loss (RCL) condition occurs and the RCLKn is derived from the JACLK source.

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DS33R41+ Maxim Integrated Products, DS33R41+ Datasheet - Page 98

DS33R41+

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