PE3342
Product Specification
Frequency Registers
There are three independent frequency registers,
any one of which can be selected to control the
operation of the device. Each register is 20 bits in
length, and provides data to the three counters
and the prescaler bypass control. Table 8 defines
these bit assignments.
Primary Register
The Primary Register is a serial shift register,
loaded through the Serial Data Port. It can be
selected to control the PLL as shown in Table 9.
It is not buffered, thus when this register is
selected to control the PLL, its data is
continuously presented to the counters during a
load operation.
This register is also used to perform a parallel
load of data into the Secondary Register.
Secondary Register
The Secondary Register is a parallel-load register.
Data is copied into this register from the Primary
Register on the rising edge of S_WR, according to
the timing diagrams shown in Figure 4. It can be
selected to control the PLL as shown in Table 9.
EE Register
The EE Register is a serial/parallel-in, serial/
parallel-out register, and provides the interface to
the EEPROM. It is loaded from the Serial Data
Port to provide the parallel data source when
writing to the EEPROM. It also accepts stored
data from the EEPROM for controlling the PLL.
Serial loading of the EE Register is done as
shown in Table 7 and Figure 4. Parallel loading of
the register from EEPROM is accomplished as
shown in Table 10.
The EE register can be selected to control the PLL
as shown in Table 9. Note that it cannot be
selected to control the PLL using data that has
been loaded serially. This is because it must first
go through one of the two conditions in Table 10
that causes the EEPROM data to be copied into
the EE Register. The effect of this is that only
EEPROM data is used when the EE Register is
selected.
The contents of the EE register can also be
shifted out serially through the Dout pin. This
mode is enabled by appropriately programming
the Enhancement Register. In this mode, data
exits the register on the rising edge of Clock, LSB
(B
0
) first, and is replaced with the data present on
the Data input pin. Tables 7 and 12 define the
settings required to enable this mode.
Table 8. Primary / Secondary / EE Register Bit Assignments
R
5
B
0
R
4
B
1
M
8
B
2
M
7
B
3
PB
B
4
M
6
B
5
M
5
B
6
M
4
B
7
M
3
B
8
M
2
B
9
M
1
B
10
M
0
B
11
R
3
B
12
R
2
B
13
R
1
B
14
R
0
B
15
A
3
B
16
A
2
B
17
A
1
B
18
A
0
B
19
Table 9. Frequency Register Selection
EESel
0
0
1
Table 10. EE Register Load from EEPROM
EESel
_
⁄
¯
1
FSel
1
0
X
EELoad
0
0
0
Register Selected
Primary Register
Secondary Register
EE Register
EELoad
0
¯\_
Function
EEPROM
→
EE Register
EEPROM
→
EE Register
©2005 Peregrine Semiconductor Corp. All rights reserved.
Page 8 of 17
Document No. 70-0091-03
│
UltraCMOS™ RFIC Solutions
PEREGRINE [ PEREGRINE SEMICONDUCTOR CORP. ]
