HC5503CBZ Intersil, HC5503CBZ Datasheet - Page 9
HC5503CBZ
Manufacturer Part Number
HC5503CBZ
Description
Manufacturer
Intersil
Datasheet
1.HC5503CBZ.pdf
(17 pages)
Specifications of HC5503CBZ
Number Of Channels
1
On-hook Transmission
Yes
Polarity Reversal
No
On-chip Ring Relay Driver
Yes
Longitudinal Balanced
58
Operating Supply Voltage (typ)
5V
Operating Temp Range
0C to 70C
Loop Current Limit
30mA
Operating Temperature Classification
Commercial
Pin Count
24
Mounting
Surface Mount
Operating Supply Voltage (max)
5.25V
Operating Supply Voltage (min)
4.75V
Lead Free Status / RoHS Status
Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
HC5503CBZ
Manufacturer:
HARRIS
Quantity:
20 000
The Transversal Amplifier (TA)
Whereas the feed amplifiers perform the 4-wire to 2-wire
transmission function, the transversal amplifier acts as the
2-wire to 4-wire hybrid. The TA is a summing amplifier
configured to reject common mode signals. It will reject 2-
wire common mode signals. R
current sense resistors. The voice signal output of the
amplifier is a function of the differential voltages appearing
across R
The transversal amplifier also has a DC output proportional
to the metallic current in the loop. The output voltage is
given by:
V
This DC level is used as an input to a comparator whose
output feeds into the logic circuitry as SH. This signal is used
to gate SHD output.
Voice signals on the loop are transformed by the TA into
ground referenced signals. Since the TA output has a DC
offset it is necessary to AC couple the output to any external
circuitry. Note, that during 4-wire to 2-wire transmission, the
transversal amplifier will have an audio signal at its output
proportional to the 4-wire audio receive signal and the loop’s
equivalent AC impedance. This is called the transhybrid
return, and must be cancelled (or balanced) out to prevent
an echo effect. Reference the Transhybrid Circuit section for
more information.
Loop Current Limiting
The maximum loop length for this application is a 533Ω load
across the feed amplifiers (24V
30mA
resistance often approaches zero. Thus, a need exists to
control the maximum DC loop current that can flow around
the loop to prevent an excessive current drain from the
system battery. This limit is internally set to 30mA on the
HC5503. Figure 3 depicts the feedback network that
modifies the V
Figure 4 illustrates the loop current characteristics as a
function of line resistance.
As indicated above, the TA has a DC voltage output
directly proportional to the loop current. This voltage level
is scaled by R
‘Metallic’ input to one side of a Transconductance
Amplifier.
TX
= 2(I
MAX
B1
TIP
loop current). However, on a short loop the line
and R
+ I
RF
19
RING
and R
voltage as a function of metallic current.
B2
.
) (R
18
B1
. The scaled level forms the
+ R
9
B1
SUPPLY
B2
and R
)
B2
- 8V
act as loop
OVERHEAD
)/
HC5503
The reference input to this amplifier is generated in the bias
network, and is equivalent to 30mA. When the metallic input
exceeds the set reference level, the transconductance
amplifier sources current. This current will charge C
positive direction causing the V
approach the V
feed across the loop which will limit the DC loop current. C
will continue to charge until an equilibrium level is attained at
I
loop is set by R
The V
loop current during ring line faults (e.g., ground or power line
crosses), and thermal overload. Figure 8 illustrates this. The
thermal and fault current circuitry works in parallel with the
transconductance amplifier.
Longitudinal Amplifier
The longitudinal amplifier is an operational amplifier
configured as a closed loop differential amplifier with a
nominal gain of 0.1. The output is a measure of any
imbalance between I
this amplifier is given by:
V
The gain factor is much less than one since ring voltage (up
to 150V
terminals and are attenuated to avoid exceeding the
common mode range of the longitudinal amplifier’s input.
LOOP
V
LONG
V
RING
RF
V
RF
FIGURE 3. DC LOOP CURRENT CHARACTERISTICS
R
RF
B2
= I
PEAK
= 0.1(I
V
V
LOOP
voltage level is also modified to reduce or control
TF
TIP
R
B1
) can appear at the Ring or Ring Feed Sense
RING
FEED
TIP
mA (Max). The time constant of this feedback
TF
21
(90kΩ) and C
(Tip Feed), effectively reducing the battery
- I
RING
TIP
-
+
TRANSVERSAL
and I
) 150.
A
AMP
VCL
+
-
RING
RF
1
C
= 2
1
which is nominally 0.33µF.
(Ring Feed) voltage to
. The transfer function of
90K
R
21
R
1.8K
R
90K
V
19
18
TX
FOR KV
= -600 I
KV
V
TX
B5
TX
LOOP
I
1
GM
-4V
+
-
V
< V
in
B
> 0,
/2
B5
V
TX
1
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