MITEL MH88614

MH88614

Programmable CODEC SLIC
Advance Information
Features
ISSUE 2
•
Transformerless 2-wire to 4-wire conversion
•
Battery Feed
•
Ringing & Messaging Facility
•
Power Down with Wake Up output
•
Automatic Ring Trip
•
Programmable Constant Current
•
Earth Ground Button detection
•
Switch Hook detection
•
Interface for a programmable CODEC
•
Ring ground over-current protection
•
Impedance reflection
•
Loop Length Indication
Ordering Information
MH88614
Description
The SLIC provides a complete interface between an
industry standard programmable CODEC or DSP
and a subscriber loop.
Functions provided include battery feed, zero
crossing ring control, programmable current feed,
power down with wake up signal, cadenced
messaging facility, switch hook & dial pulse
detection, loop length indication and the capability of
reflecting a programmable CODEC’s impedance or
supplying a standard 600 ohm impedance to the line.
The device is fabricated as a thick film hybrid using
various technologies for optimum circuit design high
reliability.
Line Interface for
• PABX
Intercoms
•
Key Telephone Systems
•
Control Systems
VX
VR
30 Pin SIL Package
0°C to 70°C
Applications
•
2W-4W
Converter
TIP
Line Drivers
&
Battery Feed
RING
Loop
SHK
EGB
April 1995
Loop
Supervision
Constant
Current
Control
LA
WU
LCA
RE
MSE
Switch
Circuits
PD
VMSG VRNG
VEE
VDD VBAT AGND
BGND
Figure 1 - Functional Block Diagram
2-129
MH88614
Advance Information
IC
IC
TIP
IC
RING
LOOP
BGND
WU
EGB
IC
VBAT
IC
PD
AGND
VDD
VEE
IC
VR
IC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
VX
IC
LCA
IC
LA
IC
VRING
VMSE
RE
MSE
SHK
21
22
23
24
25
26
27
28
29
30
Figure 2 - Pin Connections
Pin Description
Pin #
Name
1
IC
Internal Connection
2
IC
Internal Connection
3
TIP
Connects to the “Tip” lead of the telephone line.
4
IC
Internal Connection
5
RING
Connects to the “Ring” lead of the telephone line
6
LOOP
Loop Length Indication. The output on this pin is proportional to the loop length /
resistance, and is valid for off hook conditions only.
7
BGND
Battery Ground. This pin is the return pin for the battery feed to the line and also for the
message voltage supply and the Ring Voltage supply. This pin should normally be
connected to AGND.
8
WU
Wake Up(Output). When in the power down mode this pin goes high to indicate the phone
has gone off hook. When this occurs the power down signal should be removed.
9
EGB
Earth Ground Button Detection (Output) This output goes low when the ring lead or tip
lead is grounded.
10
IC
11
VBAT
12
IC
Internal Connection
13
PD
Power Down (Input) Applying a logic 0 (Active low) will Power down the hybrid. This may
be used, but must be removed to allow a call to be made or to reduce power consumption.
14
AGND
15
VDD
Positive Supply. (Typically +5V).
16
VEE
Negative Supply. (Typically -5V).
17
IC
Internal Connection
18
VR
Receive (Input). The audio input signal is applied to this pin from the programmable
CODEC. This signal is internally a.c. coupled
2-130
Description
Internal Connection
Battery Feed Supply. This pin is the supply for the line feed. (Typically -48V).
Analog Ground. This pin is the return pin for the positive and negative supplies and is
normally connected to BGND.
MH88614
Advance Information
Pin Description- (Continued)
Pin #
Name
Description
19
IC
Internal Connection
20
VX
Transmit (Output). The audio output signal appears on this pin and is internally a.c.
coupled. This signal is applied to the programmable CODEC.
21
IC
Internal Connection
22
LCA
23
IC
Internal Connection
24
LA
Loop Alarm (Output) When the loop impedance exceeds the maximum limits that the SLIC
can support for a specified voltage & current this output will go low. This indicates that the
SLIC will no longer support the line. Note: This pin will also pulse low if Loop Disconnect
Dialling is performed, and goes low when the phone is on hook.
25
IC
Internal Connection
26
VRING
Ring Voltage Supply. This pin is the supply for the Ringing signal to the telephone.
(Typically 90VRMS on -48V battery).
27
VMSE
Message Voltage Supply. This pin is the supply for the message signal to the telephone.
(Typically -100V)
28
RE
Ring Enable (Input). The ringing signal is applied across Tip & Ring by applying a logic 1 to
this pin while the phone is “On Hook”. Ringing will be automatically stopped when the
phone goes “Off Hook” regardless of the state of the RE pin.
29
MSE
Message Signal Enable (Input). A cadenced signal can be applied to this pin which will
switch the VMSG voltage onto Tip & Ring. The output voltage is internally conditioned to
prevent bell tinkle on the telephone. This is automatically switched off when the phone goes
off hook.
30
SHK
Switch Hook (Output). The output of this pin goes low when the phone goes “Off Hook”
and can be used externally to switch MSE off.
Loop Current Adjust (input). The circuit has two constant current settings that are logic
selectable
Functional Description
The MH88614 is an ONS SLIC for use with a
programmable / intelligent CODEC or DSP. The SLIC
performs all of the normal interface functions
between the CODEC and the analog telephone set
whilst having such additional features as Earth
Ground Button Detection, message switching and
Ringing switching with zero crossing.
The MH88614 is available as a 30 pin SIL package
to increase board densities.
2 Wire to 4 Wire Conversion
The hybrid performs 2 wire to 4 wire conversion by
taking the 4 wire signal from the programmable
CODEC at VR and converting it to a 2 wire
differential signal at Tip & Ring. The 2 wire signal
applied across Tip & Ring by the phone is converted
to 4 wire signal at Vx which is the output from the
SLIC to the programmable CODEC. Both the VR
input & Vx output are internally a.c. coupled.
Loop Supervision
The Loop Supervision circuit monitors the state of
the phone line and provides three different output
stages.
When the phone goes “Off Hook” the SHK pin goes
low to indicate this state. This pin reverts to a high
state when the phone goes back “On Hook” (see
figure 3).
When the phone is off hook the circuitry can also
detect two other features of the line status namely
Earth Ground Button & Loop Alarm.
A logic low signal on the Earth Ground Button output
indicates that an earth ground path has been applied
to the Tip or Ring lead of the telephone. This function
can be used for recall operations on phone sets with
Earth Ground Buttons.
The Loop Alarm signal low to indicate that the R Loop
has been exceeded and that the circuit will no longer
support the line.
2-131
MH88614
Advance Information
The hybrid also provides an output which is
proportional to the loop length / resistance. LA must
be high for ILoop to be valid.
R Loop = - [(10 x VLoop)-1.5]
ILoop
- 82Ω
Where VLoop = the voltage at Loop
ILoop = the programmed line current
Europe by allowing an impedance to be reflected
through the SLIC from the CODEC or DSP module.
The outputs at tip & ring protected from short term
over voltage between tip & gnd, ring to gnd or tip to
ring reducing the requirement for secondary
protection circuitry.
There is also long term protection on the outputs
against short circuits applied across tip & ring, tip to
gnd, ring to gnd and tip & ring to gnd.
Switch circuits
Constant Current Control
Whilst working within the RLoop maximum limit set by
the I Loop & VBat levels chosen the circuit allows the loop
current to be set to one of the two discrete levels by
the use of the loop current adjust pin. Applying a logic
low to this pin sets the constant current to the lowest
level. By changing the level to a logic high the constant
current is set to the highest level. This feature can be
used with the loop alarm signal when setting up the
line to chose the loop current setting most suitable.
Line Drivers & Battery Feed
The Line Drivers & Battery Feed circuit provide
power to the line and allow bi-directional audio
transmission.
The line impedance present by the line driver
circuitry is a nominal 600 ohms, allowing the circuit
to be used on its own in a PABX application. The
nominal impedance can be modified to look like a
complex impedance such as those used within
There are three switches built into the functionality of
this circuit, they are Ringing Enable, Message Signal
Enable and Power Denial.
Ringing Enable allows a logic level to be applied to a
pin and the ringing voltage superimposed on a d.c.
level to then be switched onto the line. The ringing
signal applied to the line at zero voltage crossing and
switched off at zero current. (see figure 3). The
ringing signal can be terminated by either returning
the Ringing Enable pin to a logic low level or it will
automatically stop when the phone goes off hook
regardless of the state of the input pin.
The Message Signal Enable pin provides the
switching control of the message voltage. A logic
high on the MSE pin applies the message voltage to
the line. Internal circuitry allows the input signal to
MSE to be cadenced, causing the output signal to be
cadenced, without causing bell tinkle. This is
possible by conditioning the rising and falling edges
of the output signal. Message Signal Enable also has
auto trip facility.
RE
IRING
SHK
1
0
tt
30/45mA
tt
Off Hook
ILOOP
0mA
On Hook
Figure 3 - Call Supervision
2-132
MH88614
Advance Information
MSE
Uncadenced
trdr
MSE
cadenced
trdr
trda
RE
trda - MSE should be removed at least 200ms before applying RE.
trdr - RE should be removed at least 120ms before applying MSE.
Figure 4 - Call & Message Indication
When applying ringing and message signal to the
phone the two signals should be applied separately
to minimise total power consumption. Figure 4
indicates how the timing of this process could best
be achieved for cadenced and uncadenced message
signalling.
Power Denial can be applied at any time to remove
the line from service. The Power Denial input
enables the line to be isolated from the battery under
fault conditions or for maintenance purposes. A logic
low will remove the battery feed whilst a logic high
will provide power to the line.
Absolute Maximum Ratings*
Parameter
Symbol
Min
Max
Units
-0.3
+0.3
0.3
+15
-15
-60
V
V
V
Comments
1
DC Supply Voltage
VDD
VEE
VBAT
2
Ringing Voltage
VRING
130
VRMS
3
Message Voltage
VMSG
-180
V
VDC + AC PEAK
4
Overvoltage Tip/Gnd
Ring/Gnd, Tip/Ring
300
V
MAX 1ms
(with power on)
5
Ringing Current
IRING
45
mA
6
Message Current
IMSG
6
mA
7
Short Circuit current
(continuous),
Tip/Gnd, Ring/Gnd, Tip/Ring
60
mA
8
Storage
Temp
TSTG
+100
°C
9
Package Power
Dissipation
PDISS
2.5
W
-40
TAMB 70°C max
* Exceeding these values may cause permanent damage. Functional operation under these conditions is not implied.
2-133
MH88614
Advance Information
Recommended Operating Conditions
Characteristics
Sym
Min
Typ*
Max
Units
Operating Supply Voltage
4.75
-4.75
-22
50
5.00
-5.00
-48
90
5.25
-5.25
-60
100
V
V
V
VRMS
0
-100
25
-130
70
V
°C
Comments
1
2
Ringing Voltage
VDD
VEE
VBat
VRING
3
4
Message Voltage
Operating Temperature
VMSG
TO
17 to 55 Hz
on a DC bias of
-22V to -60V
VDC + AC PEAK
VBat ILoop
-48V 45mA
* Typical figures are at 25°C with nominal+ 5V supplies and are for design aid only: not guaranteed and not subject to production testing.
DC Electrical Characteristics - Voltages are with respect to GNDA unless otherwise stated.
Characteristics
1
Supply Current
2
Power Consumption
3
Constant Current Line
Feed
4
Operating Loop
(Inclusive of Tele. Set)
5
6
Max
Units
IDD
IEE
IBat
10
10
10
15
15
60
mA
mA
mA
PD =High
PC
300
1800
50
400
mW
mW
mW
Standby, VBat = -48V
LCA = Low, (Off Hook)
PD = Low
30
45
35
50
mA
mA
LCA=Low
LCA=High
750
1150
Ω
Ω
ILoop = 45mA
ILoop = 30mA
VBAT = -48V
400
Ω
ILoop = 30mA
VBAT =-22V
RLoop
Unbalanced
Detection
EGB
8
VMSG Bias Current
9
VMSG Voltage Drop
10
LCA, MSE, RE, PD
Input Low Voltage
Input High Voltage
EGB, SHK, LA, WU
Output Low Voltage
Output High Voltage
Min
25
40
SHK
VMSG Leakage Current
12
Typ*
Off Hook Detection
Threshold
7
11
Sym
10
mA
10
mA
200
µA
MSE = LOW
1.5
mA
MSE = HIGH♣
VMSG = -100V
4
5
V
IMSG = 3mA
0.4
2.4
0.8
V
V
IiI = -2mA
Iih = 0.4mA
0.4
V
V
lol = 2mA
loh = -0.4mA
-5
V
PD = High
SHK = Low (Off Hook)
VBat = -48V
2
VIL
VIH
2.0
VOL
VOH
2.4
VLoop
0
Test Conditions
Loop Output Voltage
* Typical figures are at 25°C with nominal+ 5V supplies and are for design aid only: not guaranteed and not subject to production testing.
♣ Averaged level with no load applied, and a cadence of 1s “On”, 3s “Off” .
2-134
MH88614
Advance Information
AC Electrical Characteristics
Characteristics
1
Sym
Auto Ring Trip/Message
Trip Detect Time
tt
2
Impedance (2W)
Zin
3
Return Loss (2W)
RL
4
Transhybrid Loss
THL
5
Min
Typ*
Max
Units
100
150
ms
Test Conditions
VBAT -48V
600
Ω
No External Feedback
♣
22
30
dB
♣
18
20
dB
♣
Impedance at VR
100k
Ω
AC coupled via 0.1µF
6
Impedance at VX
10
Ω
AC coupled via 0.1µF
7
Gain VR to 2W
@ 1kHz
dB
ZTERM @ 2W = 600Ω
ZSOURCE @ VR < 10Ω
8
Gain Relative to 1kHz
dB
300-3400Hz
9
Gain 2W to VX @ 1kHz
dB
ZSOURCE @ 2W = 600Ω
ZLOAD @ VR > 100k
10
Gain Relative to 1KHz
+0.3
dB
300-3400Hz
11
Longitudinal to Metallic
Balance at 2W
LCL
56
dB
300-3400Hz
12
Harmonic Distortion
@ VX and 2W
THD
%
0.1Vrms @ 1kHz
13
Max. Signal
Level @ VX and 2W
14
Common Mode Rejection
Ratio @ 2W
15
Idle Channel Noise
@ 2W
@ VX
16
17
Power Supply Rejection
2W and VX
VRING Voltage Drop
-0.3
0
0.3
+0.3
-0.3
CMRR
48
0
0.1
40
0.3
1
1.1
Vrms
50
dB
1kHz
THD < 10%
0.5Vrms @ 1kHz
Nc
12
15
PSRR
VDD
VEE
V BAT
25
25
25
35
35
40
4
5
dBrnc
dBrmc
CMess. Filter
CMess. Filter
dB
dB
dB
0.3Vp-p @ 1kHz
Vrms
I RNG = 10mA RMS
* Typical figures are at 25°C with nominal+ 5V supplies and are for design aid only: not guaranteed and not subject to production testing.
♣ The 2W impedance and THL are modified to the required value by external feedback applied by the programmable codec to the hybrid where required.
Values quoted are for the hybrid on its own with no external feedback. Ref. 600Ω, 300Hz to 3400Hz
2-135
MH88614
Advance Information
Applications
Figures 5& 6 show a typical application where the
MH88614 is connected to a programmable CODEC
and a phone.
This SLIC has been designed to be used with
minimal external components in applications where
programmable CODEC’s or DSP’s are used.
Secondary
Protection
Circuit
MH88614
Vx
CODEC
VR
Tip
SD4-7
Ring
SDO-3
Figure 5 - Typical System Application
Loop
VR
VOUT
SHK
SD0
EGB
SD1
LA
WU
LCA
RE
PD
SD2
SD3
SD4
SD5
SD6
SD7
MSE
PROGRAMMABLE
CODEC
GND
VDD
VSS
AGND
BGND
VRNG
VMSG
Ring
VIN
VSS
Tip
VX
VDD
MH88614
+5V
-100V
-5V
90VRMS
(on -48V)
GND
Figure 6 - Interconnection Diagram
2-136
MH88614
Advance Information
Side View
0.1 Max
(2.54 Max)
Note 4
3.00 + 0.02
(76.2 + 0.5)
0.600 Max
(15.0 Max)
30
1
0.010 + 0.002
(0.25 + 0.13)
0.175 Max
(4.45 Max)
*
0.05 typ
(1.25 typ)
*
*
Notes:
1) Not to scale
2) Dimensions in inches).
3) (Dimensions in millimetres).
*Dimensions to centre of pin &
tolerance non accumulative.
0.050 + 0.02
(1.25 + 0.5)
0.020 + 0.005
(0.51 + 0.13)
0.18+ 0.02
(4.6+ 0.5)
0.100 + 0.010
(2.54 + 0.26)
Figure 7- Mechanical Diagram
2-137
MH88614
Notes:
2-138
Advance Information