LE58QL021BVC Zarlink, LE58QL021BVC Datasheet - Page 57
LE58QL021BVC
Manufacturer Part Number
LE58QL021BVC
Description
QUAD, SLAC, PROG CODEC, 3.3V, 20 I/0, PQT44, LEAD FREE
Manufacturer
Zarlink
Datasheet
1.LE58QL02.pdf
(66 pages)
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M
M
In the QLSLAC device, a coefficient, h
where C
C
m
000:
001:
010:
011:
100:
101:
110:
111:
y
x is the position of this CSD coefficient within the h
significant binary 1 is represented by x = 2, and so on.
Thus, C13 m13 represents the sign and the relative shift position for the first (most significant) binary 1 in the 4th (h
The number of CSD coefficients, N, is limited to 4 in the GR, GX, R, X, and Z filters; 4 in the IIR part of the B filter; 3 in the FIR
part of the B filter; and 2 in the post-gain factor of the Z-IIR filter. The GX filter coefficient equation is slightly different from the
other filters.
Please refer to the Summary of MPI Commands on
User Test States and Operating Conditions
The QLSLAC device supports testing by providing test states and special operating conditions as shown in Figure 21 (see
Operating Conditions register).
Cutoff Transmit Path (CTP): When CTP = 1, DX and TSC are High impedance and the transmit time slot does not exist. This
state takes precedence over the TSA Loopback (TLB) and Full Digital Loopback (FDL) states.
Cutoff Receive Path (CRP): When CRP = 1, the receive signal is forced to 0 just ahead of the low pass filter (LPF) block. This
state also blocks Full Digital Loopback (FDL), the 1 kHz receive tone, and the B-filter path.
High Pass Filter Disable (HPF): When HPF = 1, all of the High pass and notch filters in the transmit path are disabled.
Lower Receive Gain (LRG): When LRG = 1, an extra 6.02 dB of loss is inserted into the receive path.
Arm Transmit Interrupt (ATI) and Read Transmit PCM Data: The read transmit PCM data command, Command CDh, can be
used to read transmit PCM data through the microprocessor interface. If the ATI bit is set, an interrupt will be generated whenever
new transmit data appears in the channel and will be cleared when the data is read. When combined with Tone Generation and
Loopback states, this allows the microprocessor to test channel integrity.
TSA Loopback (TLB): When TLB = 1, data from the TSA receive path is looped back to the TSA transmit path. Any other data
in the transmit path is overwritten.
Full Digital Loopback (FDL): When FDL = 1, the VOUT output is turned off and the analog output voltage is routed to the input
of the transmit path, replacing the voltage from VIN. The AISN path is temporarily turned off. This test mode can also be entered
by writing the code 10000 into the AISN register.
1 kHz Receive Tone (TON): When TON = 1, a 1 kHz digital mW is injected into the receive path, replacing any receive signal
from the TSA.
A-Law and µ-Law Companding
Table
h
xy
3
4
xy
iGX
= m1 + m2 + m3
= m1 + m2 + m3 + m4
Table 7
=
xy
1
is the sign bit (0 = positive, 1 = negative).
is the 3-bit shift code. It is encoded as a binary
number as follows:
0 shifts
1 shifts
2 shifts
3 shifts
4 shifts
5 shifts
6 shifts
7 shifts
is the coefficient number (the i in h
+
is 1 bit (MSB) and m
h
i
and Table
Table 8
xy
B
B
show the companding definitions used for A-law and
3
4
is 3 bits. Each CSD coefficient is broken down as follows:
= C1 • C2 • C3
= C1 • C2 • C3 • C4
i
, consists of N CSD coefficients, each being made up of 4 bits and formatted as C
i
).
i
Equation 8
coefficient. The most significant binary 1 is represented by x = 1. The next most
Zarlink Semiconductor Inc.
page 40
for complete details on programming the coefficients.
57
µ
-law PCM encoding.
3
) coefficient.
xy
m
xy
,
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