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Электронный компонент: U2781B-MFS

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U2781B
Rev. A4, 11-Sep-00
1 (10)
Frequency Synthesizer
Description
The programmable frequency synthesizer IC U2781B for
P-controlled applications is realized with Atmel
Wireless & Microcontrollers' advanced UHF process
which is very suitable for combinations of fast ECL logic
and low-current I
2
L logic. The benefits are high input
sensitivity combined with low power consumption and
therefore small packages (SSO20). This makes the
device a perfect choice for cordless phones and handheld
cellular radio sets up to 1.1 GHz.
Electrostatic sensitive device.
Observe precautions for handling.
Features
D Very low current consumption (typ. 3 V/ 5 mA)
D Supply-voltage range: 2.7 to 5.5 V
D Max. input frequency: 1.1 GHz
D Programmable prescaler 64/ 65 or 128/ 129
D Controlled by 3-wire bus with f
clock
up to 500 kHz
D Status output for PLL lock/ unlock condition
D Very fast phase detector
D SSO20 package
D ESD protection in accordance with MIL-STD. 883
method 3015 class 2
Benefits
D Very low current consumption extends talk time
D Few external components and SSO package save costs
and space
Block Diagram
Charge
pump
Prescaler
64/65
128/129
V
VS
18-bit
shift register
Phase
detector
Oscillator
14-bit
reference counter
Data
Clock
Osci
GND
1-bit latch
load control
PS
CP
LDo
Mo
RFi
Enable
7-bit
swallow
counter
15-bit latch
11-bit
main
18-bit latch
counter
SCP
Osco
17
3
15
1
8
11
7
4
10
6
14
13
5
U2781B
Figure 1. Block diagram
U2781B
Rev. A4, 11-Sep-00
2 (10)
Ordering Information
Extended Type Number
Package
Remarks
U2781B-MFS
SS020
Tube, MOQ 830 pcs
U2781B-MFSG3
SS020
Taped and reeled, MOQ 4000 pcs
Functional Description
The IC is controlled by a 3-wire bus with Clock, Data and
Enable inputs for programming the scaling factors of the
programmable counter, the reference counter and the
prescaler.
A TCXO can be connected to the oscillator input (OSCi)
as an alternative solution to the common crystal reference
oscillator. In that case, the oscillator output (OSCo)
should be left open.
The charge-pump output operates as switched current
sources. The characteristics of the phase-locked loop can
be determinated by the external lowpass filter.
The phase characteristic of the phase detector is convert-
ible and thus matchable to different frequency/ tuning
voltage characteristics.
Pin Description
Pin
Symbol
Function
1
Osci
Oscillator input
2
n.c.
Not connected
3
Osco
Oscillator output
4
V
SCP
Charge-pump supply voltage
5
V
s
Supply voltage
6
CP
Charge-pump output
7
GND
Ground
8
LDo
Lock-detector output
9
n.c.
Not connected
10
RFi
VCO input
11
Clock
3-wire bus Clock
12
n.c.
Not connected
13
Data
3-wire bus Data
14
Enable
3-wire bus Enable
15
PS
Phase select input
16
n.c.
Not connected
17
Mo
Monitor output for f
p
and f
r
18
n.c.
Not connected
19
n.c.
Not connected
20
n.c.
Not connected
1
2
3
4
5
6
7
8
10
9
19
18
17
16
14
15
13
12
11
20
V
SCP
V
S
CP
GND
LDo
n.c.
n.c.
Osco
Mo
n.c.
PS
Enable
Data
n.c.
n.c.
n.c.
RFi
Clock
Osci
n.c.
U2781B
Figure 2. Pinning SSO20
U2781B
Rev. A4, 11-Sep-00
3 (10)
Absolute Maximum Ratings
Parameter
Symbol
Value
Unit
Supply voltage
V
S
0.3 to 6
V
RF input
V
RF
V
S
V
Oscillator input voltage
V
Osci
1
V
Oscillator output voltage
V
Osco
1.5
V
Bus input voltage
V
BUS
6
V
Phase-select input voltage
V
PS
6
V
Charge-pump input voltage
V
SCP
6
V
Storage temperature
T
stg
40 to 125
C
Operating Range
Parameter
Symbol
Value
Unit
Supply voltage
V
S
2.7 to 5.5
V
Ambient temperature
T
amb
40 to 85
C
Thermal Resistance
Parameter
Symbol
Value
Unit
Junction ambient
SSO20
R
thJA
140
K/W
Electrical Characteristics
T
amb
= 25
_C, V
S
= 2.7 to 5.5 V, unless otherwise specified
Parameter
Test Conditions / Pins
Symbol
Min.
Typ.
Max.
Unit
DC supply
Supply voltage
V
s
2.7
5.5
V
Supply current
V
s
= 3 V
I
s
5
mA
Supply voltage CP
V
SCP
V
s
5.5
V
Supply current CP
V
CP
= 5 V, PLL in locked
condition
I
SCP
1
A
RF input
Input voltage
f
i
= 200 to 1100 MHz
R
s
= 50
*)
R
s
= 50
*)
V
imin
V
imax
20
200
mV
RMS
mV
RMS
Frequency range
f
imin
f
imax
1100
50
1250
MHz
MHz
Scaling factor prescaler
S
PSC
64/128
Scaling factors main counter
S
M
4
2047
U2781B
Rev. A4, 11-Sep-00
4 (10)
Electrical Characteristics (continued)
T
amb
= 25
_C, V
S
= 2.7 to 5.5 V, unless otherwise specified
Unit
Max.
Typ.
Min.
Symbol
Test Conditions / Pins
Parameter
Scaling factors swallow
counter
S
S
0
127
Reference oscillator
Input voltage
R
s
= 50
*)
R
s
= 50
*)
V
imin
V
imax
20
200
mV
RMS
mV
RMS
Frequency range
f
imin
f
imax
0,1
20
MHz
MHz
Scaling factor reference
counter
S
R
4
16383
3-wire bus (Clock, Data, Enable) and PS
High input voltage
V
iH
1.5
0.9
V
Low input voltage
V
iL
0
0.4
V
High input current
I
iH
5
A
Low input current
I
iL
5
A
Monitor output (Emitter follower)
High output voltage
V
s
= 3 V
V
iH
2.1
2.2
V
Low output voltage
I
MO
= 0.5 mA
V
iL
1.8
1.9
V
Charge-pump output
Source current
V
CP
= 5 V
I
source
1
mA
Sink current
I
sink
1
mA
Leakage current
V
CP
= 5 V
I
leak
5
nA
Lock-detector output (open collector)
Saturation voltage
I
LD
= 0.2 mA
V
sat
0.2
0.4
V
Leakage current
V
LD
= 5 V
I
leak
2
mA
*) RMS voltage at 50
W
U2781B
Rev. A4, 11-Sep-00
5 (10)
Functional Description
The reference- and the programmable counter can be
programmed by the 3-wire bus (Clock, Data and Enable).
The Data Signal is transferred bit by bit into the shift
register during the rising edge, starting with the MSB-bit.
As soon as the enable signal is in high condition, the
content of the shift register will be taken over either into
the 15-bit reference counter latch (C = H) or into the
18-bit latch of the programmable counter (C = L)
Reference Counter (15-bit shift register)
LSB
MSB
C
R0
R1
R2
R3
R4
R5
R6
R7
R8
R9
R10
R11
R12
R13
PSC
C:
Control bit High
PSC: Prescaler scaling factor bit: High 64/65
Low 128/129
S
PSC
= 64 or 128
R0 to R13:
These bits are setting the reference counter S
R
S
R
= R0
2
0
+ R1
2
1
+ to + R12
2
12
+ R13
2
13
permitted scaling factors for S
R
: 4 to 16383
Programmable Counter (18-bit shift register)
LSB
MSB
C
S0
S1
S2
S3
S4
S5
S6
M0
M1
M2
M3
M4
M5
M6
M7
M8
M9
M10
C:
Control bit Low
S0 to S6:
These bits are setting the swallow counter S
S
.
S
S
= S0
2
0
+ S1
2
1
+ to + S5
2
5
+ S6
2
6
permitted scaling factors for S
S
: 0 to 127, S
S
< S
M
M0 to M10 : These bits are setting the main counter S
M
.
S
M
= M0
2
0
+ M1
2
1
+ to + M9
2
9
+ M10
2
10
permitted scaling factors for S
M
: 4 to 2047
Total scaling factor S
P
of the programmable counter
S
P
= (S
PSC
S
M
) + S
S
Condition: S
S
< S
M
VCO Frequency
f
VCO
= ((S
PSC
S
M
) + S
S
)
f
RefOsc
/ S
R