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SL1714C View Datasheet(PDF) - Mitel Networks

Part Name
Description
MFG CO.
SL1714C
Mitel
Mitel Networks Mitel
'SL1714C' PDF : 20 Pages View PDF
SL1714
Programming of Synthesisers
A SP5611 synthesiser is used to set the frequency of the
SL1714 VCO (480MHz). Since the SL1714 incorporates a
divide by 32 the synthesised frequency that the SP5611 must
be programmed to is 480/32=15MHz.
Example
a) To program the SL1714 to 480MHz.
I2C Byte
Byte 1 (address)
Byte 2 (programmable divider 8 MSBs)
Byte 3 (programmable divider 8 LSBs)
Byte 4 (control data)
Byte 5 (port data)
Hex Code
C2
00
F0
CE
00
C2 is the address byte (byte 1).
0F00 is the programmable divider information (bytes 2 and 3).
CE is the control data information (byte 4).
**Note - the programmable divider information should be
set to program 480MHz /32 = 15MHz since the SL1714
provides a divide by 32 prescaler output rather than the VCO
carrier frequency.
It is not possible to program the VCO to 479.5MHz when
using a 7.8125kHz phase comparator frequency. The mini-
mum step size is 7.8125KHz x 8 (RF prescaler inside SP5611)
x 32 (SL1714 output prescaler) = 2MHz.
If the reference divider is set to 1024 mode (3.90625kHz
phase comparator frequency), the minimum step size will be
1MHz.
This may be achieved by programming the control byte to
CC and modifying the programmable divider information for
the new step size.
SL1714 Operation
The SL1714 will mix an IF input with its own local oscillator.
This is controlled as above via a SP5611 synthesiser.
Normally the VCO will be set to the same frequency as the
IF input, and the signal mixed directly down to baseband.
Alternatively, a CW RF source may be fed into the input of
the SL1714 which is deliberately offset from the VCO. By
varying the offset from 0-20MHz and monitoring the I and Q
channel baseband outputs, the flatness response of the chip/
output filter can be measured.
The SL1714 oscillator may also be disabled by setting the
ON-VCO-OFF switch to the OFF position.
An AGC voltage adjust pot marked AGC ADJUST is
provided, together with a test point.
Measurement of Gain and Phase Match.
a) Synthesise the required frequency (480MHz is used in the
example above).
b) Connect an RF signal generator to the input.
c)Input a signal which should give an output of approx 0dBm
(0.707V p-p), in combination with the appropriate AGC
setting.
d) Connect a vector voltmeter to the BUFFERED outputs
when using 50inputs. When using high impedance probes,
the direct outputs may be used. Selection of outputs is via the
on board U links.
e) CALIBRATE the vector voltmeter and the leads to be used.
The calibration should be performed at the chosen baseband
frequency and level for maximum accuracy.
f) Vary the RF input frequency either side of the LO and note
the relative I and Q gain and phase reading.
If you experience any difficulties with this board, or require
further help, please contact Robert Marsh on 01793 518234
or Fred Herman on 01793 518423
13
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