PEB20320H-V34RF Infineon Technologies, PEB20320H-V34RF Datasheet - Page 218

PEB20320H-V34RF

Manufacturer Part Number

PEB20320H-V34RF

Description

IC CONTROLR 32-CH HDLC 160-MQFP

Manufacturer

Infineon Technologies

Datasheet

1.PEB20320H-V34.pdf (252 pages)

Specifications of PEB20320H-V34RF

Function

Multichannel Network Interface Controller (MUNICH)

Interface

HDLC, ISDN, V.110, X.30

Voltage - Supply

Current - Supply

100mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

160-BSQFP

Includes

Automatic Flag Detection, CRC Generation and Checking, Error Detection, Interframe-Time-Fill Change Detection

Lead Free Status / RoHS Status

Request inventory verification / Request inventory verification

Power (watts)

Number Of Circuits

Other names

PEB20320H-V34RF
PEB20320H-V34RFIN

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User’s Manual

Applying these values to the equations yields the following:

When the packet size is much larger (256 bytes or larger), the bus occupancy decreases

to less than 4%. Conversely, sending very small frames (4 bytes), causes bus

occupancy to increase to over 11%. This is primarily due to the increased descriptor

processing per packet.

5.3.2

The previous discussion shows bus occupancy to be very low, even when a MUNICH32

is processing 32 channels of receive and transmit data. There is another system

consideration of bus occupancy that must be examined. When a MUNICH32 channel

has no data required for transmit, the channel must be temporarily (or permanently)

stopped. There are several methods that may be used to stop the transmission.

1. The first method involves executing a channel command with TH = 1 (reactivation of

2. A second method is based on statistical knowledge of the frequency of transmitted

the channel requires a new channel command with TH = 0). This method places the

transmit channel on hold and prevents any further accesses of the memory for this

channel.

frames. If frames are transmitted without shared flags and if the average number of

interframe time fill characters can be determined, the MUNICH32 can be programmed

to suppress poll sequences. By setting FNUM in the Tx descriptor to a value (n)

greater than 0, the MUNICH32 will transmit n + 1 idle characters after the end of the

current frame. During this period of interframe time fill, the MUNICH32 will not poll the

Tx descriptor. As an example, if it is determined that 5 idle characters typically occur

between frames, FNUM can be set to 4. At the end of the current frame, 5 idle

characters will be transmitted (625 s. on a DS0 channel) before the next frame is

transmitted and no polls of the Tx descriptor will occur during that time.

Time used to access memory

= {([6 + (1 + 7)]

= {(14

= {864}

= 231.9 s.

Time used to send data

= ((4 + 32)

= 36

= 4500 s.

Bus occupancy = 231.9 s/4500 s = 5.1%

Bus Occupancy for Idle Tx Channels

125 s.

32) + (13

268.4 ns

8/8)

32) + ([5 + (1 + 7)]

125 s.

32)}

1.1

244 ns

218

32)}

(1.1)

61 ns

Application Notes

PEB 20320

01.2000

PEB20320H-V34RF Infineon Technologies, PEB20320H-V34RF Datasheet - Page 218

PEB20320H-V34RF

Specifications of PEB20320H-V34RF

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