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MC14LC5447DW Scheda tecnica(PDF) 6 Page - Motorola, Inc

Il numero della parte MC14LC5447DW
Spiegazioni elettronici  Calling Line Identification (CLID) Receiver with Ring Detector
Download  12 Pages
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Produttore elettronici  MOTOROLA [Motorola, Inc]
Homepage  http://www.freescale.com
Logo MOTOROLA - Motorola, Inc

MC14LC5447DW Scheda tecnica(HTML) 6 Page - Motorola, Inc

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MC14LC5447
MOTOROLA
6
DESIGN INFORMATION
The circuit in Figure 2 illustrates in greater detail the rela-
tionship between Pins 3, 4, 6, and 7.
The external component values shown in Figure 2 are the
same as those shown in Figures 7 and 8. When VDD is
applied to the circuit in these two figures, the RC network will
charge cap C1 to VDD holding RT (Pin 6) off. If the PWRUP
(Pin 7) is also held at VDD, the MC14LC5447 will be in a
power–down mode, and will consume 1
µA of supply current
(max).
The resistor network (R2 – R4) attenuates the incoming
power ring applied to the top of R2. The values given have
been chosen to provide a sufficient voltage at RDI1 (Pin 3) to
turn on the Schmitt–trigger input with approximately a
40 Vrms or greater power ring input from tip and ring. When
VT+ of the Schmitt is exceeded, Q1 will be driven to satura-
tion discharging cap C1 on RT. This will initialize a partial
power–up, with only the portions of the part involved with the
ring signal analysis enabled, including RDI2 (Pin 4). At this
time the MC14LC5447 power consumption is increased to
approximately 2.4 mA (typ).
TO
BRIDGE
RING
ANALYSIS
CIRCUIT
INTERNAL
POWER–
UP
RT
PWRUP
LOGIC
Vref
1.2 V
EXTERNAL
COMPONENTS
INTERNAL
COMPONENTS
VDD
6
PWRUP
7
RDI1
3
RDI2
4
R1
270 k
R3
18 k
R4
15 k
470 k
R2
C1
0.2
µF
Q1
TO RDO
PIN
Figure 2.
The value of R1 and C1 must be chosen to hold the RT pin
voltage below the VT+ of the RT Schmitt between the individ-
ual cycles of the power ring. The values shown will work for
ring frequencies of 15.3 Hz (min).
With RDI2 now enabled, a portion of the power ring above
1.2 V is fed to the ring analysis circuit. This circuit is a digital
integrator which looks at the duty cycle of the incoming sig-
nal. When the input to RDI2 is above 1.2 V, the integrator is
counting up at an 800 Hz rate. When the input to RDI2 falls
below 1.2 V, the integrator counts down at a 400 Hz rate.
3.25
2.75
1.75
1.25
2.25
2.0
1.0
1.5
3.5
3.0
2.5
VDD
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
VT–
VT+
Figure 3. VDD versus VT+ and VT–
A ring is qualified when an internal count of binary 48 is
reached. The ring is disqualified when the count drops to a
binary 32. The number of ring cycles required to qualify the
signal will depend on the amplitude of the voltage presented
to RDI2. The shortest amount of time needed to do the quali-
fication is approximately 60 ms. The shortest amount of time
required for dequalification will be approximately 40 ms.
Once the ring signal is qualified, the RDO pin will be sent
low. This can be fed back to PWRUP as shown in Figure 7, or
with a pull–up resistor, can be used as an interrupt to an
MCU as shown in Figure 8. In either case, once the PWRUP
pin is below VT–, the part will be fully powered up, and ready
to receive FSK. During this mode, the device current will in-
crease to approximately 6.2 mA (typ). The state of the RT pin
is now a “don’t care” as far as the part is concerned. Normal-
ly, however, this pin will be allowed to return to VDD.
After the FSK message has been received, the PWRUP
pin can be allowed to return to VDD and the part will return to
the standby mode, consuming less than 1
µA of supply cur-
rent. The part is now ready to repeat the same sequence for
the next incoming message.
TYPICAL DEMODULATOR PERFORMANCE
The following describes the performance of the
MC14LC5447 demodulator in the presence of noise over a
simulated Bell 3002 telephone loop.
The Bell 3002 loop represents a worst case local tele-
phone loop in North America. The characteristics of this loop,
which affect performance, are high frequency attenuation
and Envelope Delay Distortion (EDD) or group delay.
The minimum receiver sensitivity of the MC14LC5447 un-
der these conditions is typically – 45 dBm.
The MC14LC5447 achieves a Bit Error Rate (BER) of 1
×
10–5 at a Signal–to–Noise Ratio (SNR) of 15 dB in V.23 op-
eration and at an SNR of 18 dB in Bell 202 operation (see
Figures 4 and 5).
All measurements in dBm are referenced to 600
Ω: 0 dBm
= 0.7746 Vrms.
All measurements were taken using the MC145460EVK
evaluation board.
AR
CH
IVE
D B
Y F
RE
ES
CA
LE
SE
MI
CO
ND
UC
TO
R,
INC
.


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