HC55183ECM Intersil, HC55183ECM Datasheet - Page 12
HC55183ECM
Manufacturer Part Number
HC55183ECM
Description
Manufacturer
Intersil
Datasheet
1.HC55183ECM.pdf
(21 pages)
Specifications of HC55183ECM
Number Of Channels
1
On-hook Transmission
Yes
Polarity Reversal
Yes
On-chip Ring Relay Driver
Yes
Longitudinal Balanced
45
Operating Supply Voltage (typ)
5/-28V
Operating Temp Range
0C to 70C
Package Type
PLCC
Loop Current Limit
45mA
Operating Temperature Classification
Commercial
Pin Count
28
Mounting
Surface Mount
Operating Current
8.5mA
Operating Supply Voltage (max)
5.25/-75V
Operating Supply Voltage (min)
4.75/-24V
Lead Free Status / RoHS Status
Not Compliant
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When R
constant current feed to constant voltage, resistive feed. The
line segment I
load characteristic.
Voice Transmission
The feedback mechanism for monitoring the AC portion of
the loop current consists of two amplifiers, the sense
amplifier (SA) and the transmit amplifier (TA). The AC
feedback signal is used for impedance synthesis. A detailed
model of the AC feed back loop is provided below.
The gain of the transmit amplifier, set by R
programmed impedance of the device. The capacitor C
blocks the DC component of the loop current. The ground
symbols in the model represent AC grounds, not actual DC
potentials.
The sense amp output voltage, V
Ring voltage and load is calculated using Equation 23.
The transmit amplifier provides the programmable gain
required for impedance synthesis. In addition, the output of
this amplifier interfaces to the CODEC transmit input. The
output voltage is calculated using Equation 24.
Once the impedance matching components have been
selected using the design equations, the above equations
provide additional insight as to the expected AC node
voltages for a specific Tip and Ring load.
Transhybrid Balance
The final step in completing the impedance synthesis design
is calculating the necessary gains for transhybrid balance.
I
V
V
RING
B
SA
VTX
TIP
=
V
----------------------- -
=
R
=
TR OC
FIGURE 6. AC SIGNAL TRANSMISSION MODEL
–
LOOP
KNEE
(
–
(
V
V
T
SA
–
)
20
20
V
B
is exceeded, the device will transition from
R
------- -
8K
R
represents the resistive feed portion of the
S
)
10
------
Z
L
R
R
+
+
-
-
3R
3R
3R
3R
12
SA
0.75R
1:1
-
+
R/2
, as a function of Tip and
HC55180, HC55181, HC55183, HC55184
V
T
SA
A
S
, determines the
8K
R
R
(EQ. 22)
(EQ. 23)
(EQ. 24)
VRX
VTX
R
-IN
VFB
C
S
FB
FB
The AC feed back loop produces an echo at the V
of the signal injected at V
maintain voice quality. Most applications will use a summing
amplifier in the CODEC front end as shown below to cancel
the echo signal.
The resistor ratio, R
the transmit gain, G
Equation 25.
G
Most applications set R
4-wire equals the transmit gain. Typically R
20kΩ to prevent loading of the device transmit output.
The resistor ratio, R
gain of the device, G
transmit gain requirement and R
Equation 26.
Power Dissipation
The power dissipated by the device during on hook
transmission is strictly a function of the quiescent currents
for each supply voltage during Forward Active operation.
Off hook power dissipation is increased above the quiescent
power dissipation by the DC load. If the loop length is less
than or equal to R
current, I
Equation 28.
If the loop length is greater than R
operating in the constant voltage, resistive feed region. The
power dissipated in this region is calculated using Equation 29.
R
P
P
P
TX
FAQ
FA IA
FA IB
A
=
1:1
(
(
=
--------- -
G
R
=
FIGURE 7. TRANSHYBRID BALANCE INTERFACE
–
44
)
)
B
=
V
G
=
A
BH
HC5518x
T
24
P
, and the power dissipation is calculated using
A
P
FA Q
FA Q
×
R
------- -
R
( )
I
B
F
( )
BHQ
R
R
+
KNEE
+
(
+
TX
(
V
F
F
V
44
BL
V
/R
/R
VRX
-IN
BL
VTX
R
. The transmit gain is calculated using
BL
. R
F
B
A
xI
S
, the device is providing constant
xI
RX
, provides the final adjustment for
, is determined by the transhybrid
= R
×
B
F
A
)
I
)
BLQ
–
. The echo must be cancelled to
is previously defined by the
–
B
(
(
R
, hence the device 2-wire to
R
LOOP
+
A
LOOP
V
KNEE
is calculated using
R
R
CC
A
B
xI
xI
×
2
I
2
, the device is
R
B
CCQ
A
F
)
)
B
is greater than
+2.4V
-
+
TX
TX IN
RX OUT
CODEC
(EQ. 25)
(EQ. 26)
(EQ. 27)
(EQ. 28)
(EQ. 29)
output
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