參數(shù)資料
型號: HC5503CBZ
廠商: INTERSIL CORP
元件分類: 模擬傳輸電路
英文描述: Low Cost 24V SLIC For PABX / Key Systems
中文描述: TELECOM-SLIC, PDSO24
封裝: GREEN, PLASTIC, MS-013AD, SOIC-24
文件頁數(shù): 11/17頁
文件大?。?/td> 386K
代理商: HC5503CBZ
11
is the calculated value of 0.633 plus the feedback which is
1/4 T
X
(for matching to a 600
load, reference Equation 8).
The voltage at R
x
is calculated in Equation 25.
Substituting the values for T
X
and R
X
into Equation 24 and
setting them equal to each other, the values of R3 and R
4
can then be determined.
Setting the value of R
3
to 150k
sets the value of R
4
to be
200k
Notice that the input voltage for the incoming signal (I
1
) is
taken at R
X
instead of the conventional method at the
CODEC (point A, Figure 6). This alternative method is used
because the tolerance effects of R
1
on the transhybrid
balance are eliminated.
Power Denial (PD)
Power denial limits power to the subscriber loop: it does not
power down the SLIC, i.e., the SLIC will still consume its
normal on-hook quiescent power during a power denial
period. This function is intended to “isolate” from the battery,
under processor control, selected subscriber loops during an
overload or similar fault status.
If
PD
is selected, the logic circuitry inhibits RC and switches in
a current source to C
1
The capacitor charges up to a nominal
-3.5V at which point it is clamped. Since tip feed is always at
-4V, the battery feed across the loop is essentially zero, and
minimum loop power will be dissipated if the circuit goes off-
hook. No signaling functions are available during this mode.
After power denial is released (
PD
= 1), it will be several
hundred milliseconds (300ms) before the V
RF
output
reaches its nominal battery setting. This is due to the RC
time constant of R
21
and C
1
.
The Logic Network
The logic network utilizes I
2
L logic. All external inputs and
outputs are LS TTL compatible: the relay driver is an open
collector output that can sink 60mA with a V
CE
of 1V.
Figure 9 is a schematic of the combination logic within the
network. The external inputs RC (Relay Control) and
PD
(Power Denial) allow the switch controller to ring the line or
deny power to the loop, respectively. The Ring
Synchronization input (RS) facilitates switching of the ring
relay near a ring current zero crossing in order to minimize
inductive kickback from the telephone ringer.
Line Fault Protection
The subscriber loop can exist in a very hostile electrical
environment. It is often in close proximity to very high
voltage power lines, and can be subjected to lightning
induced voltage surges. The SLIC has to provide isolation
between the subscriber loop and the PBX/Key telephone
system.
The most stringent line fault condition that the SLIC has to
withstand is that of the lightning induced surge.
The Intersil monolithic SLIC, in conjunction with a simple low
cost diode bridge, can achieve up to 450V of isolation
between the loop and switch. The level of isolation is a
function of the packaging technology and geometry together
with the chip layout geometries. One of the principal reasons
for using DI technology for fabricating the SLIC is that it
lends itself most readily to manufacturing monolithic circuits
for high voltage applications.
Figures 10 shows the application circuit for the HC5503. A
secondary protection diode bridge is indicated which
protects the feed amplifiers during a fault. Most line systems
will have primary protection networks. They often take the
form of a carbon block or arc discharge device. These limit
the fault voltage to less than 450V peak before it reaches the
line cards. Thus when a transient high voltage fault has
occurred, it will be transmitted as a wave front down the line.
The primary protection network must limit the voltage to
less than 450V.
The attenuated wave front will continue
down the line towards the SLIC. The feed amplifier outputs
appear to the surge as very low impedance paths to the
system battery. Once the surge reaches the feed resistors,
fault current will flow into or out of the feed amplifier output
stages until the relevant protection diodes switch on. Once
the necessary diodes have started to conduct all the fault
current will be handled by them.
If the user wishes to characterize SLIC devices under
simulated high voltage fault conditions on the bench, he should
ensure that the negative battery power supply has sufficient
current capability to source the negative peak fault current and
low series inductance. If this is not the case, then the battery
supply could be pulled more negative and destroy the SLIC if
the total (V
CC
+ V
BAT
) voltage across it exceeds 75V.
R
X
0.633
1
4
--
0.633
(
)
0.474
=
=
(EQ. 25)
4
--------------
3
--------------
=
(EQ. 26)
H
R
X
T
X
CODEC/
FILTER
I
1
I
2
V
0
+
-
V
IN
+
-
+
-
FIGURE 6. TRANSHYBRID CIRCUIT
R
1
R
3
R
4
R
5
R
2
A
150k
200k
HC5503
相關(guān)PDF資料
PDF描述
HC5503CBZ96 Low Cost 24V SLIC For PABX / Key Systems
HC5503CCP Bipolar Transistor; Collector Emitter Voltage, Vceo:50V; Transistor Polarity:NPN; Power Dissipation:900mW; DC Current Gain Min (hfe):180; Collector Current:500A; Package/Case:3-TO-92
HC5503CCB Unbalanced PBX/Key System SLIC, Subscriber Line Interface Circuit
HC5503TCB Bipolar Transistor; Collector Emitter Voltage, Vceo:50V; Transistor Polarity:NPN; Power Dissipation:900mW; DC Current Gain Min (hfe):180; Collector Current:500A; Package/Case:3-TO-92
HC5503TCP Bipolar Transistor; Collector Emitter Voltage, Vceo:50V; Transistor Polarity:PNP; Power Dissipation:900mW; DC Current Gain Min (hfe):180; Collector Current:500A; Package/Case:3-TO-92
相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
HC5503CBZ96 功能描述:電信線路管理 IC HC5503CBEL RoHS:否 制造商:STMicroelectronics 產(chǎn)品:PHY 接口類型:UART 電源電壓-最大:18 V 電源電壓-最小:8 V 電源電流:30 mA 最大工作溫度:+ 85 C 最小工作溫度:- 40 C 安裝風(fēng)格:SMD/SMT 封裝 / 箱體:VFQFPN-48 封裝:Tray
HC5503CCB 制造商:Rochester Electronics LLC 功能描述:- Bulk
HC5503CCP 制造商:Rochester Electronics LLC 功能描述:- Bulk
HC5503CM 制造商:Rochester Electronics LLC 功能描述:- Bulk
HC5503CM96 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Subscriber Line Interface Circuit
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