ISL5586FCM Intersil, ISL5586FCM Datasheet - Page 9
ISL5586FCM
Manufacturer Part Number
ISL5586FCM
Description
Ringing Subscriber Interface
Manufacturer
Intersil
Specifications of ISL5586FCM
Package / Case
28-PLCC
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The quiescent current terms are specified in the electrical
tables for each operating mode. Load power dissipation is
not a factor since this is an on hook mode. Some
applications may specify a standby current. The standby
current may be a charging current required for modern
telephone electronics.
Standby Current Power Dissipation
Any standby line current, I
dissipation term P
contribution is zero when the standby line current is zero.
If the battery voltage is less than -49V (the MTU clamp is
off), the standby line current power contribution reduces to
Equation 18.
Most applications do not specify charging current
requirements during standby. When specified, the typical
charging current may be as high as 5mA.
Forward Active Mode
Overview
The Forward Active mode (FA, 001) is the primary AC
transmission mode of the SLIC. On hook transmission, DC loop
feed and voice transmission are supported during this mode.
The device may be operated from either high or low battery for
on-hook transmission and from low battery for loop feed.
Loop supervision is provided by the switch hook detector at
the DET output. When DET goes low, the low battery should
be selected for DC loop feed and voice transmission.
On-Hook Transmission
The primary purpose of on hook transmission will be to
support caller ID and other advanced signalling features.
The transmission over load level while on hook is 3.1V
When operating from the high battery, the DC voltages at Tip
and Ring are MTU compliant. The typical Tip voltage is -4V
and the Ring voltage is a function of the battery voltage for
battery voltages less than -60V as shown in Equation 19.
Feed Architecture
The SLIC design implements a voltage feed current sense
architecture. The voltage across Tip and Ring is controlled
by sensing the load current. Resistors are placed in series
with the Tip and Ring outputs to provide the current sensing
function. The diagram below illustrates the concept.
P
P
V
SLC
SLC
RING
=
=
=
I
I
SLC
SLC
V
BH
×
×
(
(
+
V
V
4.5V
SLC
BH
BH
–
+
. Equation 17 illustrates the power
49
1
+
+
SLC
I
SLC
1
+
, introduces an additional power
I
9
x1200
SLC
x1200
)
)
(EQ. 17)
(EQ. 18)
(EQ. 19)
PEAK
ISL5586
.
By monitoring the current at the amplifier outputs, a negative
feedback mechanism sets the output voltage for a defined
load. The amplifier closed loop gains are set by internal
resistor ratios (R
benefits of matched resistors. The internal sense resistor
R
typically 20Ω. The feedback mechanism, K
gain configuration providing negative feedback to the loop.
DC Loop Feed
The feedback mechanism for monitoring the DC portion of
the loop current is contained within the loop detector block. A
low pass filter is used in the feedback loop to block voice and
other signals from interfering with the loop current limit
function. The pole of the low pass filter is set by the external
4.7µF capacitor (C
feed characteristic of the SLIC will drive Tip and Ring
towards half battery to regulate the DC loop current. For light
loads, Tip will be near -4V and Ring will be near
V
low battery while off hook. The following diagram depicts the
DC feed characteristic.
The point on the y-axis labeled V
Tip to Ring voltage and is defined by the feed battery
voltage.
The curve of Figure 5 shows the loop current for a given set
of loop conditions. The loop conditions are determined by
the low battery voltage and the DC loop resistance. The DC
loop resistance is the sum of the protection resistance,
copper resistance (ohms/foot) and the telephone off hook
DC resistance.
V
VBL
CS
TR OC
FIGURE 4. VOLTAGE FEED CURRENT SENSE DIAGRAM
V
, is much smaller than the gain resistors and are
(
V
OUT
+ 4.5V. Most applications will operate the device from
TR(OC)
)
=
FIGURE 5. DC FEED CHARACTERISTIC
V
BL
R
A
L
I
–
LOOP
, R
DC)
9
B
(mA)
, R
and an internal 8KΩ resistor. The DC
R
CS
C
) providing all the performance
R
B
I
LIM
-
+
TR(OC)
+
-
K
m = (∆V
S
is the open circuit
TR
S
, represents the
/∆I
R
A
L
R
) = 11.1kΩ
November 3, 2004
C
(EQ. 20)
FN4924.2
V
IN
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