參數(shù)資料
型號: LUCL9215GRG-D
英文描述: Short-Loop Sine Wave Ringing SLIC
中文描述: 短回路正弦波振鈴用戶接口
文件頁數(shù): 34/50頁
文件大?。?/td> 1115K
代理商: LUCL9215GRG-D
Data Sheet
September 2001
Short-Loop Sine Wave Ringing SLIC
L9215A/G
34
Agere Systems Inc.
Periodic Pulse Metering (PPM)
Periodic pulse metering (PPM), also referred to as tele-
tax (TTX), is input to the PPM
IN
input of the L9215.
Upon application of appropriate logic control, this sig-
nal is presented to the tip/ring subscriber loop. The
state of the L9215 should be changed while applying
PPM signals during the quiet interval of the PPM
cadence. The L9215 assumes that a shaped PPM sig-
nal is applied to the PPM
IN
input.
PPM input signals may be a maximum 1.25 V at
PPM
IN
. The gain from PPM
IN
to tip/ring is 6 dB. Thus,
for 1.0 Vrms at tip and ring, apply a 0.50 Vrms signal at
PPM
IN
. The PPM signal should be ac coupled to
PPM
IN
through a 10 nF capacitor.
When applied to tip and ring, the PPM signal will also
be returned through the SLIC and will appear at the
SLIC VITR output. The concern is that this high-voltage
signal can overload an internal SLIC amplifier or the
codec input and cause distortion of the (desired) ac
signal. Because the L9215 is intended for short dc
loops, the assumption is that low meter pulse signals
are sufficient. The maximum allowed PPM current at
the 200
ac meter pulse load to avoid saturation of the
device’s internal AAC amplifier is 3 mArms. This signal
level is sufficient to provide a minimum 200 mVrms to
the 200
PPM load under maximum specified dc loop
conditions. Above 3 mArms PPM current, external
meter pulse rejection may be required. If on-hook
transmission of PPM is required, sufficient overhead to
accommodate on-hook transmission must be pro-
grammed by the user at the OVH input.
ac Applications
ac Parameters
There are four key ac design parameters.
Termination
impedance
is the impedance looking into the 2-wire
port of the line card. It is set to match the impedance of
the telephone loop in order to minimize echo return to
the telephone set.
Transmit gain
is measured from the
2-wire port to the PCM highway, while
receive gain
is
done from the PCM highway to the transmit port.
Transmit and receive gains may be specified in terms
of an actual gain, or in terms of a transmission level
point (TLP), that is the actual ac transmission level in
dBm. Finally, the
hybrid balance
network cancels the
unwanted amount of the receive signal that appears at
the transmit port.
Codec Types
At this point in the design, the codec needs to be
selected. The interface network between the SLIC and
codec can then be designed. Below is a brief codec
feature summary.
First-Generation Codecs
These perform the basic filtering, A/D (transmit), D/A
(receive), and
μ
-law/A-law companding. They all have
an op amp in front of the A/D converter for transmit
gain setting and hybrid balance (cancellation at the
summing node). Depending on the type, some have
differential analog input stages, differential analog out-
put stages, 5 V only or
±
5 V operation, and
μ
-law/A-law
selectability. These are available in single and quad
designs. This type of codec requires continuous time
analog filtering via external resistor/capacitor networks
to set the ac design parameters. An example of this
type of codec is the Agere T7504 quad 5 V only codec.
This type of codec tends to be the most economical in
terms of piece part price, but tends to require more
external components than a third-generation codec.
Further ac parameters are fixed by the external R/C
network so software control of ac parameters is diffi-
cult.
Third-Generation Codecs
This class of devices includes all ac parameters set
digitally under microprocessor control. Depending on
the device, it may or may not have data control latches.
Additional functionality sometimes offered includes
tone plant generation and reception, PPM generation,
test algorithms, and echo cancellation. Again, this type
of codec may be 3.3 V, 5 V only, or
±
5 V operation, sin-
gle quad or 16 channel, and
μ
-law/A-law or 16-bit linear
coding selectable. Examples of this type of codec are
the Agere T8535/6 (5 V only, quad, standard features),
T8537/8 (3.3 V only, quad, standard features), T8533/4
(5 V only, quad with echo cancellation), and the
T8531/32 (5 V only 16 channel).
ac Interface Network
The ac interface network between the L9215 and the
codec will vary depending on the codec selected. With
a first-generation codec, the interface between the
L9215 and codec actually sets the ac parameters. With
a third-generation codec, all ac parameters are set dig-
itally, internal to the codec; thus, the interface between
相關(guān)PDF資料
PDF描述
LUCL9215GAU-D Short-Loop Sine Wave Ringing SLIC
LUCL9215ARG-D Short-Loop Sine Wave Ringing SLIC
LUCL9215AAU-D GT 3C 3#0 PIN RECP WALL RM
LUCL9215AAU-DT GT 14C 12# 2#16 PIN RECP WALL
LUCL9216GGF-D Short-Loop Ringing SLIC with Ground Start
相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
LUCL9216AGF-D 制造商:AGERE 制造商全稱:AGERE 功能描述:Short-Loop Ringing SLIC with Ground Start
LUCL9216AGF-DT 制造商:AGERE 制造商全稱:AGERE 功能描述:Short-Loop Ringing SLIC with Ground Start
LUCL9216ARG-D 制造商:AGERE 制造商全稱:AGERE 功能描述:Short-Loop Ringing SLIC with Ground Start
LUCL9216GGF-D 制造商:AGERE 制造商全稱:AGERE 功能描述:Short-Loop Ringing SLIC with Ground Start
LUCL9216GGF-DT 制造商:AGERE 制造商全稱:AGERE 功能描述:Short-Loop Ringing SLIC with Ground Start
發(fā)布緊急采購,3分鐘左右您將得到回復(fù)。

采購需求

(若只采購一條型號,填寫一行即可)

發(fā)布成功!您可以繼續(xù)發(fā)布采購。也可以進入我的后臺,查看報價

發(fā)布成功!您可以繼續(xù)發(fā)布采購。也可以進入我的后臺,查看報價

*型號 *數(shù)量 廠商 批號 封裝
添加更多采購

我的聯(lián)系方式

*
*
*