SI3215-FT Silicon Laboratories Inc, SI3215-FT Datasheet - Page 28
SI3215-FT
Manufacturer Part Number
SI3215-FT
Description
IC SLIC/CODEC 1CH 38TSSOP
Manufacturer
Silicon Laboratories Inc
Series
ProSLIC®r
Datasheet
1.SI3215-B-FM.pdf
(118 pages)
Specifications of SI3215-FT
Function
Subscriber Line Interface Concept (SLIC), CODEC
Interface
PCM, SPI
Number Of Circuits
1
Voltage - Supply
3.13 V ~ 5.25 V
Current - Supply
88mA
Power (watts)
700mW
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
*
Includes
Audio Tone Generation, BORSCHT Functions, FSK Generation, Voice Loopback Test Modes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
SI3215-FT
Manufacturer:
SILICON
Quantity:
15 000
Part Number:
SI3215-FT
Manufacturer:
SILICONIX
Quantity:
20 000
Si3215
2.2.6. Loop Closure Detection
A loop closure event signals that the terminal equipment
has gone off-hook during on-hook transmission or on-
hook active states. The ProSLIC performs loop closure
detection digitally using its on-chip monitor A/D
converter. The functional blocks required to implement
loop closure detection are shown in Figure 16. The
primary input to the system is the Loop Current Sense
value provided in the LCS register (direct Register 79).
The LCS value is processed in the Input Signal
Processor when the ProSLIC is in the on-hook
transmission or on-hook active linefeed state, as
indicated by the Linefeed Shadow register, LFS[2:0]
(direct Register 64). The data then feeds into a
programmable digital low-pass filter, which removes
unwanted ac signal components before threshold
detection.
The output of the low-pass filter is compared to a
programmable threshold, LCRT (indirect register 15).
The threshold comparator output feeds a programmable
debouncing filter. The output of the debouncing filter
remains in its present state unless the input remains in
the opposite state for the entire period of time
programmed by the loop closure debounce interval,
28
*Note: The ProSLIC uses registers that are both directly and indirectly mapped. A direct register is one that is mapped
Power Alarm Interrupt Enable
Automatic/Manual Detect
directly. An indirect register is one that is accessed using the indirect access registers (direct registers 28 through
31).
Table 23. Associated Power Monitoring and Power Fault Registers (Continued)
Power Alarm
LCS
LVS
Processor
LFS
Signal
Input
LCVE
ISP_OUT
HYSTEN
1 = enter open state
spond to Q1 to Q6,
Figure 16. Loop Closure Detection
Digital
upon power alarm
NCLR
0 = manual mode
Bits 2 to 7 corre-
LPF
respectively
Loop Closure
LCRT
Threshold
LCRTL
Rev. 0.92
–
+
LCDI (direct Register 69). If the debounce interval has
been satisfied, the LCR bit will be set to indicate that a
valid loop closure has occurred. A loop closure interrupt
is generated if enabled by the LCIE bit (direct
Register 22). Table 24 lists the registers that must be
written or monitored to correctly detect a loop closure
condition.
2.2.7. Loop Closure Threshold Hysteresis
Programmable hysteresis to the loop closure threshold
can be enabled by setting HYSTEN = 1 (direct
Register 108, bit 0). The hysteresis is defined by LCRT
(indirect Register 15) and LCRTL (indirect Register 66),
which set the upper and lower bounds, respectively.
2.2.8. Voltage-Based Loop Closure Detection
An optional voltage-based loop closure detection mode
can
Register 108, bit 2). In this mode, the loop voltage is
compared to the loop closure threshold register (LCRT),
which represents a minimum voltage threshold instead
of a maximum current threshold. If hysteresis is also
enabled, LCRT represents the upper voltage boundary,
and LCRTL represents the lower voltage boundary for
hysteresis.
be
N/A
N/A
Debounce
enabled
Filter
LCDI
Although
where n = 1
QnAE[n+1],
AOPN
LCR
to 6
by
voltage-based
setting
Interrupt
Logic
LCIE
Direct Register 22
Direct Register 67
LCVE = 1
LCIP
loop
closure
(direct
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