sp5669 Mitel, sp5669 Datasheet - Page 6

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sp5669

Manufacturer Part Number
sp5669
Description
2.7ghz I2c Bus Controlled Synthesiser
Manufacturer
Mitel
Datasheet

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SP5669
or when a STOP condition follows valid data bytes as
follows;
It should be noted that the device must be initially
addressed with both frequency AND control byte data,
since the control byte contains reference divider
information which must be provided before a chosen
frequency can be synthesised. This implies that after
initial turn on, bytes 2, 3, 4 must be sent followed by a
STOP condition as a minimum requirement.
Alternatively bytes 2, 3, 4, 5 must be sent if port
information is also required.
Read Mode
When the device is in read mode, the status byte read
fromthe device takes the form shown in Table 2, Fig. 4.
Bit 1 (POR) is the power–on reset indicator, and this is
set to a logic ’1’ if the V
dropped below 3V (at 25 C), e.g. when the device is
initially turned ON. The POR is reset to ’0’ when the read
sequence is terminated by a STOP command. When
POR is set high (at low V
information is lost and the output ports are all set to high
impedance.
Bit 2 (FL) indicates whether the device is phase locked,
a logic ’1’ is present if the device is locked, and a logic
’0’ if the device is unlocked.
Bits 6,7 and 8 (A2, A1, A0) combine to give the output
of the ADC. The ADC can be used to feed AFC
information to the microprocessor via the I
6
To facilitate smooth fine tuning, the frequency data bytes
are only accepted by the device after all 17 bits of frequency
data have been received, or after the generation of a STOP
condition. Repeatedly sending bytes 2 and 3 only will not
change the frequency. A frequency change occurs when one
of the following data sequences is sent to an addressed
device;
Bytes 2, 3, 4, 5
Bytes 4, 5, 2, 3
Bytes 2, 3, 4, STOP
Bytes 4, 5, 2 STOP
Bytes 2, 3, STOP
Bytes 2, STOP
Bytes 4, STOP
CC
supply to the device has
CC
), the programmed
2
C bus.
Additional Programmable Features
Prescaler enable
The divide by two prescaler is enabled by setting bit PE
within byte 4 to a logic ’1’. A logic ’0’ disables the
prescaler, directly passing the RF input frequency to the
17–bit programmable counter. Bit PE is a static select
only.
Charge pump current
The charge pump current can be programmed by bits
C1 and C0 within data byte 5, as defined in Fig. 6.
Test mode
The test modes are invoked by setting bits RE=0 and
RTS=1 within the programming data, and are selected
by bits TS2, TS1 and TS0 as shown in Fig. 5. When TS2,
TS1 and TS0 are received, the device retains previously
received P2, P1 and P0 data.
Reference/Comparison frequency output
The reference frequency F ref can be switched to the
REF/COMP output, pin 3, by setting bit RE=1 and
RTS=0 within byte 5. The comparison frequency F
comp can be switched to the REF/COMP output, pin 3,
by setting bit RE=1 and RTS=1 within byte 5. For RE set
to logic ’0’, the output is disabled and set to a high state.
RE and RTS default to logic ’1’ during device power up,
thus enabling the comparison frequency F comp at the
REF/COMP output
R3
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
Figure. 3 Reference division ratios
R2
0
0
0
1
1
1
1
0
0
0
1
1
1
1
0
0
R1
0
0
1
1
0
0
0
1
0
0
1
1
0
0
1
1
.
R0
0
1
1
0
1
0
1
0
1
0
1
0
1
0
1
0
Allowed
Ratio
128
192
256
384
Not
16
32
64
12
24
48
96
2
4
8
6
frequency with a
4MHz external
Comparison
15.625kHz
166.67kHz
666.67kHz
333.33kHz
reference
31.25kHz
41.67kHz
10.42kHz
83.33kHz
20.83kHz
62.5kHz
250kHz
500kHz
125kHz
2MHz
1MHz
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