AMIS49587C5871RG ON Semiconductor, AMIS49587C5871RG Datasheet - Page 23
AMIS49587C5871RG
Manufacturer Part Number
AMIS49587C5871RG
Description
IC MODEM PLC 50/60MHZ 28PLCC
Manufacturer
ON Semiconductor
Specifications of AMIS49587C5871RG
Baud Rates
Selectable
Interface
SCI
Voltage - Supply
3 V ~ 3.6 V
Mounting Type
Surface Mount
Package / Case
28-PLCC
Number Of Transmitters
1
Power Supply Requirement
Single
Package Type
PLCC
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
28
Operating Temperature (max)
70C
Dual Supply Voltage (typ)
Not RequiredV
Dual Supply Voltage (max)
Not RequiredV
Dual Supply Voltage (min)
Not RequiredV
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Data Format
-
Lead Free Status / Rohs Status
Compliant
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must start at it’s 0 phase position, corresponding with a 0 V
output level. When switching between f
accumulator must give a continuous phase and not restart
from phase 0.
TX_RXB goes from 1 to 0) the sine wave generator must
make sure to complete the active sine period.
TX_ENB to enable the external power amplifier. TX_ENB
is 1 when the AMIS- -49587 is in receive mode. TX_ENB is
6.2.3 DA Converter
digital word to a pulse density modulated (PDM) signal.
The PDM signal is converted to an analog signal with a first
order switched capacitor filter.
6.2.4 Low Pass Filter
path filters the quantization noise and noise generated by the
ΣΔ DA converter. The low pass filter has a circuit which
tunes the RC time constants of the filter towards the process
characteristics. The C values for the LPF filter are controlled
by the ARM micro controller.
6.2.5 Amplifier with Automatic Level Control (ALC)
transmitter output level. First a peak detection is done. The
peak value is compared to 2 thresholds levels: VTL
and VTH
control the setting of the level of TX_OUT. The level of
TX_OUT can be attenuated in 8 steps of 3 dB typical.
When AMIS- -49587 goes into receive mode (when
The control logic for the transmitter generates a signal
TX_DATA
A digital to analog ΣΔ converter converts the sine wave
A 3
The pin ALC_IN is used for level control of the
BIT_CLK
TX_OUT
TX_RXB
TX_ENB
rd
order continuous time low pass filter in the transmit
ALC_IN
. The result of the peak detection is used to
M
and f
Figure 18. TX_ENB Timing
S
the phase
ALC_IN
http://onsemi.com
23
0 when AMIS- -49587 is in transmit mode. When going from
transmit to receive mode (TX_RXB goes from 1 to 0) the
TX_ENB signal is kept active for a short period of
t
TX_DATA which corresponds to the transmitted S- -FSK
signal. When transmitting f
transmitting f
is not enabled (TX_RXB = 0) TX_DATA goes to logic 1 at
the next BIT_CLK.
(maximum attenuation) When going to reception mode
(when TX_RXB goes from 1 to 0) the level is kept in
memory so that the next transmit frame starts with the old
level. The evaluation of the level is done during 1
CHIP_CLK period.
Depending on the value of peak level on ALC_IN the
attenuation is updated:
- - Vp
- - VTL
- - Vp
The gain changes in the next CHIP_CLK period.
CHIP_CLK periods. ALC operation is enabled only during
the first 16 CHIP_CLK cycles after a hard or soft reset or
after going into transmit mode.
register R_ALC_CTRL[3] = 1. In this case the transmitter
dTX_ENB
The control logic for the transmitter generates a signal
After hard or soft reset the level is set at minimum level
An evaluation phase and a level adjustment takes 2
The automatic level control can be disabled by setting
level
ALC_IN
ALC_IN
ALC
.
≤ Vp
< VTL
> VTH
S
TX_DATA is logic 0. When the transmitter
ALC_IN
ALC
ALC
: Increase the level with 1 step
: Decrease the level with 1 step
≤ VTH
t
M
dTX_ENB
TX_DATA is logic 1. When
ALC
: Don’t change the
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