Preliminary Information
Functional Description
The SLIC uses a Transformerless electronic 2-4 wire
converter which can be connected to a Codec to
interface the 2 wire subscriber loops to a time
division multiplexed (TDM) pulse code modulated
(PCM) digital switching network. For analog
applications, the TXRX of the 2 wire converter can
be connected directly to an analog crosspoint switch,
such as the MT8816. Powering of the line is provided
through precision battery feed resistors. The
MH88620IN also contains control, signalling and
status circuitry which combines to provides a
complete functional solution, simplifying the
manufacture of line cards. This circuitry is illustrated
in the functional block diagram in Fig 1. The
MH88620IN is designed to be pin compatible with
Mitel’s MH88632, MH88625, MH88620, and
MH88628. This allows a common PCB design with
common gain, input impedance and network
balance.
MH88620IN
provides for long loop capability regardless of the
current setting. Refer to graph 1.
The LCA (Loop Current Adjust) pin is an input to an
internal resistor driver network which generates a
bias voltage. The loop current is proportional to this
voltage. The loop current can be set between 30 and
75 mA by various connections to the LCA pin as
illustrated in Table 5 and Figure 5. The loop current
during a fault condition will be limited to the constant
loop current programmed. Primary over current
protection is inherent in the current limiting feature of
the 200 ohm battery feed resistor. Refer to Graph 1.
Receive and Transmit Audio Path
The audio signal of the 2-wire is sensed differentially
across the 200 ohm feed resistor and is passed on to
a second differential amplifier stage in the 2W/4W
conversion block. This block sets the transmit gain
on the 4-wire side and cancels signals originating
from the receive input.
Approvals
Programmable Transmit and Receive Gain
FCC part 68, CCITT, DOS CS-03, UL 1459, CAN/
CSA-22.2 N0. 225-M90 and ANSI/EIA/TIA-464-A are
system level safety standards and performance
requirements. As a component of a system, the
MH88620IN is designed to comply with the
applicable requirements of these specifications.
Transmit Gain (Tip-Ring to Tx) and Receive Gain (Rx
to Tip-Ring) are programmed by connecting external
resistors (RRX and RTX) from GRX1 to AGND and
from GTX1 to AGND as indicated in Figure 2 and
Table 1 and 2. The programmable gain range is from
-12dB to +6dB; this wide range will accommodate
any loss plan. Alternatively, the default Receive Gain
of 0dB and Transmit Gain of 0dB can be obtained by
connecting GRX0 and GRX1 and GTX0 to GTX1. In
addition, a Receive Gain of +6dB and Transmit Gain
of +6dB can be obtained by not connecting resistors
RRX and RTX. For correct gain programming. the
MH88620IN’s Tip-Ring impedance (Z
in
) must match
the line termination impedance.
For optimum performance, resistors RRX should be
physically located as close as possible to the GRX1
input pin, and resistor RTX should be physically
located as close as possible to the GTX1 input pin.
Battery Feed
The loop current for the subscriber equipment is
sourced through a pair of matched 200 ohm resistors
connected to the TIP and RING. The two wire loop is
biased such that the Ring lead is 2V above VBAT
(typically -46V) and the Tip lead is 2V below LGND
(typically -2V) during constant voltage mode.
The SLIC is designed for a nominal battery voltage
of -48Vdc and can provide the maximum loop current
of 75mA under this condition.
The interface circuit is designed to be operated down
to a maximum of 16mA dc, with a battery voltage of -
44V. The Tip and Ring output drivers can operate
within 2V of V
Bat
and LGND rails.
Two Wire Port Termination Impedance
The AC termination of 600 ohms, of the 2W port is
set using active feedback paths to give the desired
relationship between the line voltage and the line
current. The loop current is sensed differentially
across the two feed resistors and converted to a
single ended signal. This signal is fed back to the
Loop Current Setting
The MH88620IN SLIC is a constant resistance with
constant voltage fallback design. This design feature
2-165
MITEL [ MITEL NETWORKS CORPORATION ]
