PTC PT4452

Preliminary
PT4452
PLL-based OOK/ASK/FSK Transmitter IC
DESCRIPTION
FEATURES
PT4452 is a high performance OOK/ASK/FSK
transmitter for the Remote Keyless Entry (RKE)
systems. It consists of a power amplifier, one-shot
circuit and phase-locked loop with internal voltage
controlled oscillator and loop filter. The one-shot
circuit controls the phase-locked loop and power
amplifier to have fast start-up time in operation.
•
•
•
•
•
Highly integrated OOK/ASK/FSK transmitter
High output power, 3 V /+12 dBm /27 mA
Low supply voltage, 2.2 V to 3.6 V operation range
Low external component cost.
PLL-based transmitter with frequency range from
250MHz to 450MHz
• On-chip one-shot circuit
• 60 dB RF on-off ratio for OOK/ASK modulation
• SOP8 package
APPLICATIONS
•
•
•
•
•
•
Keyless entry systems
Remote control systems
Garage door openers
Alarm systems
Security systems
Wireless sensors
BLOCK DIAGRAM
PAOUT
VSSPA
DIN
VDD
8
7
6
5
Vreg
Oneshot
PA
PLL
1
MODSEL
2
3
4
XOUT
XIN
CE
Tel: 886-66296288‧Fax: 886-29174598‧ http://www.princeton.com.tw‧2F, 233-1, Baociao Road, Sindian, Taipei 23145, Taiwan
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PT4452
APPLICATION CIRCUIT
VDD
R3
C3
VDD
ASK
L1
FSK
MODSEL
PAOUT
8
2
XOUT
VSSPA
7
3
XIN
DIN
6
C2
4
CE
VDD
5
R4
VDD
1
C1
X1
C4
C7
EN
L2
C5
C6
R1
DIN
R2
VDD
BILL OF MATERIALS
Part
X1
R1
R2
R3
R4
C1
C2
C3
C4
C5
C6
C7
L1
L2
Value
315MHz
9.844M
10K
100K
0
0
NC
27p
1u
15p
8.2p
8.2p
2.2u
47n
39n
433.92MHz
13.56M
10K
100K
0
0
NC
39p
1u
22p
6.8p
8.2p
2.2u
39n
27n
Unit
Hz
Ohm
Ohm
Ohm
Ohm
F
F
F
F
F
F
F
H
H
Notes:
1. C1/C2 can be used to trim the transmitted signal frequency for matching the specified value.
2. For FSK application to have adequate frequency deviation, and accurate carrier frequency, the crystal resonator frequency will be lower than the
specified value. The recommended crystal resonator frequency is 9.8388MHz and 13.5545MHz for 315MHz and 433.92MHz band. The loading
capacitor C1/C2 will put below 20pF to have ±50KHz pulling frequency deviation at least.
3. L2/C5/C6 value will depend on PCB layout.
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PT4452
ORDER INFORMATION
Valid Part Number
PT4452-S
Package Type
8 Pins, SOP8
Top Code
PT4452-S
PIN CONFIGURATION
PIN DESCRIPTION
Pin Name
MODSEL
XOUT
XIN
CE
VDD
DIN
VSSPA
PAOUT
PRE1.0
I/O
I
O
I
I
P
I
G
O
Description
ASK/FSK modulation selection. “0” = ASK, “1” = FSK
Oscillator output
Oscillator input
Chip enables. “1” to enable the chip
Power supply
Data input
Power amplifier ground
Power amplifier output
3
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Pin No.
1
2
3
4
5
6
7
8
March 2010
PT4452
FUNCTION DESCRIPTION
PA OUTPUT MATCHING
The PA output is an open-drain structure. Its output connects a large choke inductor to supply voltage and follows by a
DC block capacitor. After the DC block capacitor, a C-L-C π-type matching network is used to tune with the antenna
impedance. The inductor and capacitor values may be different from the suggestion value depending on PCB material,
PCB thickness, ground configuration, and the layout traces length.
For the open-drain structure in PA, the HBM (Human Body Mode) and MM (Machine Mode) ESD strength is 4KV and
400V.
REFERENCE OSCILLATOR
For a quartz crystal to oscillate in the specified frequency, it should work with vendor provided load capacitor value,
called CL . The load capacitor is about 12pF to 18pF in general. In PT4452, the Pierce type crystal oscillator is used, and
the shunt capacitor over XIN and XOUT is in series together equivalently. The shunt capacitor should be placed as 2x CL
to oscillate with specified frequency. The temperature coefficient of quartz crystal will cause the VCO output frequency
drift in high/low temperature range.
In the FSK mode, the DIN signal will connect/disconnect the internal shunt capacitor over XIN and XOUT. The shunt
capacitor connected inside the chip is about 7pF.
With a fixed divided-by-32 PLL, the fREFOSC = fTX / 32. The following table list fREFOSC for some common transmit
frequencies
Transmit Frequency fTX
Reference Oscillator Frequency fREFOSC
315 MHz
9.844 MHz
340 MHz
10.625 MHz
390 MHz
12.188 MHz
433.92 MHz
13.56 MHz
PHASE-LOCKED LOOP (PLL)
The PT4452 own a fixed divided-by-32 PLL to generate the transmitter signal. The PLL consists of the
voltage-controlled oscillator (VCO), crystal oscillator, asynchronous ÷ 32 divider, charge pump, loop filter and
phase-frequency detector (PFD). All these circuits are integrated on-chip. The PFD compares two signals and
produces an error signal which is proportional to the difference between the input phases. The error signal passes
through a loop filter with an approximately 180 KHz bandwidth, and is used to control the VCO. A frequency divider
placed after the VCO and it will feedback the divided signal to PFD. In the final the VCO will get locked to reference
signal as fVCO = fREFOSC * 32. The block diagram below shows the basic elements of the PLL.
The PLL chain circuit is supplied by internal voltage regulator to ease the PA pulling and crystal spur issue
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PT4452
ONE-SHOT CIRCUIT AND POWER-DOWN CONTROL
During the signal transmission, the crystal oscillator start-up time will limit its wake-up time to work. A one-shoot circuit is
used to solve this problem by turning on/off the power amplifier and PLL circuit separately.
In OOK/ASK mode, applied “HIGH” to DIN, will enable the PLL chain and PA. When applied “LOW” to DIN, the PA will be
turn-off immediately, and the PLL chain will be turn-off after one-shot period about 50ms.
In FSK mode, “HIGH” and “LOW” signal in DIN will pull the VCO to higher or lower frequency. To enter the power-down
mode, CE needs to tie “LOW”. A summary table below to state the relationship between them,
CE
1
1
1
1
0
0
0
0
MODSEL
0
0
1
1
X
X
X
X
DIN
0
1
0
1
X
X
X
X
MODE
ASK
ASK
FSK
FSK
X
X
X
X
PLL
Off, after one-shot delay
On
On, VCO to lower frequency
On, VCO to higher frequency
Off
Off
Off
Off
PA
Off
On
On
On
Off
Off
Off
Off
To calculate the re-triggerable one-shot delay time, it can be counted as 688128 / fREFOSC . For fREFOSC = 9.844MHz and
13.56MHz, the delay time is about 70ms and 50ms.
ANTENNA DESIGN AND PCB LAYOUT CONSIDERATION
For a λ/4 dipole antenna and operating frequency, f (in MHz), the required antenna length, L (in cm), may be calculated
by using the formula
L=
7132
f
For example, if the frequency is 315 MHz, then the length of a λ/4 antenna is 22.6 cm. If the calculated antenna length
is too long for the application, then it may be reduced to λ/8, λ/16, etc. without degrading the input return loss. Usually,
when designing a λ/4 dipole antenna, it is better to use a single conductive wire (diameter about 0.8 mm to 1.6 mm)
rather than a multiple core wire.
If the antenna is printed on the PCB, ensure there is neither any component nor ground plane underneath the antenna
on the backside of PCB. For an FR4 PCB (εr = 4.7) and a strip-width of 30 mil, the length of the antenna, L (in cm), is
calculated by
L=
c
4× f × εr
where “c” is the speed of light (3 x1010 cm/s)
Proper PCB layout is extremely critical in achieving good RF performance. At the very least, using a two-layer PCB is
strongly recommended, so that one layer may incorporate a continuous ground plane. A large number of via holes
should connect the ground plane areas between the top and bottom layers.
Careful consideration must also be paid to the supply power and ground at the board level. The larger ground area
plane should be placed as close as possible to all the VSS pins. Grounding the metal case of quartz crystal and isolate
the XIN/XOUT trace to other can suppress the crystal spur signal over PA output.
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PT4452
ABSOLUTE MAXIMUM RATINGS
Parameter
Supply Voltage Range
I/O Voltage
Operating Temperature Range
Storage Temperature Range
Symbol
VDD5
–
TA
TSTG
Min.
-0.3
-0.3
-40
-55
Max.
5
5
+85
+125
Unit
V
V
°C
°C
ELECTRICAL CHARACTERISTICS
Nominal conditions: VDD = 3.0 V, VSS = 0 V, CE = “High”, TA = +27°C.
Parameter
Symbol
Conditions
General Characteristics
Supply Voltage
VDD
DIN=High(CW mode);
POUT =12dBm, fRF = 315MHz
(Note)
Operating Current
IDD
DIN=High(CW mode);
POUT =10dBm, fRF = 434MHz
Standby Current
Istandby
DIN=Low; TDELAY>50ms
RF
Frequency Range
fRF
fRF = 315MHz
Power Amplifier Output Power (Note)
Pout
fRF = 434MHz
RF Power On / Off Ratio
PEXT
Phase Noise
PNOISE
315MHz, 10KHz offset
(Note)
Harmonics
PHARM
2x/3x fRF
fRF = 315MHz
Crystal Spur
PSPUR
fRF = 434MHz
Data Input and One-Shot
OOK/ASK mode
Data Rate
DRATE
FSK mode
Frequency Deviation
FDEV
FSK mode, CL not connected
Crystal Oscillator Start-up Time
TON
CL not connected
One-shot Delay Time
TDELAY
fRF = 434MHz
Min.
Typ.
Max.
Unit
2.2
3.0
3.6
V
27
mA
29
mA
250
1
μA
450
MHz
dBm
dBm
dB
dBc/Hz
dBc
dBc
dBc
50
10
150
Kbps
Kbps
KHz
ms
ms
12
10
60
-75
-40
-50
-50
0.5
2
1
110
1
50
Note: Depend on power amplifier output matching
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PT4452
Ope ra t i on C urre nt C onsumpt i on(100% dut y c yc l e )
40
Out put P owe r t o 50 Ohm Loa d
18
Out put P owe r (dB m)
30
25
14
12
10
ftx=315MHz
ftx=315MHz
8
ftx=434MHz
ftx=434MHz
6
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
4
4.1
4.2
4.3
4.4
4.5
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
4
4.1
4.2
4.3
4.4
4.5
20
S uppl y Vol t a ge (V)
S uppl y Volt a ge (V)
Figure 1. Current Consumption vs. Supply Voltage
Figure 2. Output Power vs. Supply Voltage
P owe r/ F re que nc y vs. Te mpe ra t ure
14
13.5
315.006
12
frf@434MHz band
314.99
433.88
85
80
70
-40
Ope ra t i on Te mpe ra t ure ( O C )
60
0
85
80
70
60
50
40
30
20
0
10
-10
-20
-30
-40
10
433.885
2
314.992
50
frf@315MHz band
10.5
433.89
prf@434MHz band
4
40
314.994
30
314.996
prf@315MHz band
11
20
11.5
433.895
6
0
314.998
433.9
8
-10
315
12
10
-20
315.002
12.5
433.905
-30
13
Out put P owe r (dB m)
315.004
433.91
Out put F re que nc y (MHz )
315.008
Out put F re que nc y (MHz )
Out put P owe r (dB m)
P owe r/ F re que nc y vs. Te mpe ra t ure
14
10
C urre nt C onsumpt i on (mA)
16
35
Ope ra t i on Te mpe ra t ure ( O C )
Figure 3. Power/Frequency vs. Temperature@315MHz band
Figure 4. Power/Frequency vs. Temperature @434MHz band
Out put P owe r for di ffe re nt Ope ra t i on F re que nc y (ma t c he d)
16
Out put P owe r (dB m)
15
14
13
12
Output Power (dBm)
11
492
480
448
433.9
416
384
352
320
315
288
256
224
211.2
10
Ope ra t i on F re que nc y (MHz )
Figure 5. Output Power vs. Frequency
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PT4452
PACKAGE INFORMATION
8 Pins, SOP, 150MIL
Symbol
A
A1
A2
b
c
e
D
E
E1
L
Min.
1.35
0.08
1.20
0.33
0.17
Max.
1.77
0.28
1.65
0.51
0.26
4.70
5.80
3.70
0.38
Nom.
1.60
0.15
1.40
1.27BSC
4.90
6.00
3.90
0.60
θ
0º
-
8º
5.10
6.20
4.10
1.27
Notes:
1. Refer to JEDEC MS-012AA
2. Unit: mm
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PT4452
IMPORTANT NOTICE
Princeton Technology Corporation (PTC) reserves the right to make corrections, modifications, enhancements,
improvements, and other changes to its products and to discontinue any product without notice at any time.
PTC cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a PTC product. No
circuit patent licenses are implied.
Princeton Technology Corp.
2F, 233-1, Baociao Road,
Sindian, Taipei 23145, Taiwan
Tel: 886-2-66296288
Fax: 886-2-29174598
http://www.princeton.com.tw
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March 2010