TH72016KLD Melexis Inc, TH72016KLD Datasheet - Page 4

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TH72016KLD

Manufacturer Part Number

TH72016KLD

Description

TRANSMITTER, FSK/ASK, 433MHZ, 10QFN

Manufacturer

Melexis Inc

Datasheet

1.TH72016KLD.pdf (16 pages)

Specifications of TH72016KLD

Transmitting Current

14.5mA

Data Rate

40Kbps

Frequency Range

380MHz To 450MHz

Modulation Type

ASK, FSK

Rf Ic Case Style

QFN

No. Of Pins

10

Supply Voltage Range

1.95V To 5.5V

Operating

RoHS Compliant

Output Power

10dBm

Rohs Compliant

Yes

Current page: 4 of 16
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2.2 FSK Modulation

FSK modulation can be achieved by pulling the

crystal

compatible data stream applied at the pin

FSKDTA digitally modulates the XOSC via an

integrated NMOS switch. Two external pulling

capacitors CX1 and CX2 allow the FSK devia-

tion Δf and the center frequency f

justed independently. At FSKDTA = 0, CX2 is

connected in parallel to CX1 leading to the low-

frequency component of the FSK spectrum

(f

and the XOSC is set to its high frequency f

An external reference signal can be directly AC-

coupled to the reference oscillator input pin

ROI. Then the transmitter is used without a

crystal. Now the reference signal sets the car-

rier frequency and may also contain the FSK (or

FM) modulation.

2.3 Crystal Pulling

A crystal is tuned by the manufacturer to the

required oscillation frequency f

capacitance CL and within the specified calibra-

tion tolerance. The only way to pull the oscilla-

tion frequency is to vary the effective load ca-

pacitance CL

Figure 3 shows the oscillation frequency of a

crystal as a function of the effective load ca-

pacitance. This capacitance changes in accor-

dance with the logic level of FSKDTA around

the specified load capacitance. The figure illus-

trates the relationship between the external

pulling capacitors and the frequency deviation.

It can also be seen that the pulling sensitivity

increases with the reduction of CL. Therefore,

applications with a high frequency deviation

require a low load capacitance. For narrow

band FSK applications, a higher load capaci-

tance could be chosen in order to reduce the

frequency drift caused by the tolerances of the

chip and the external pulling capacitors.

For ASK applications CX2 can be omitted. Then CX1 has to be adjusted for center frequency.

39010 72016

Rev. 007

min

); while at FSKDTA = 1, CX2 is deactivated

oscillator

eff

seen by the crystal.

frequency.

0

at a given load

A

c

to be ad-

CMOS-

max

.

Page 4 of 16

f

f

max

min

Fig. 2:

Fig. 3:

f

c

f

FSKDTA

CX1 CRO

CX1+CRO

0

1

Crystal pulling circuitry

Crystal pulling characteristic

CL

f

f

min

max

= f

= f

XTAL

c

(CX1+CX2) CRO

CX1

FSK/ASK Transmitter

CX1+CX2+CRO

c

- Δf (FSK switch is closed)

+ Δf (FSK switch is open)

Description

CX2

C1

L1

XTAL

R1

TH72016

FSKSW

ROI

C0

433MHz

Data Sheet

VCC

VEE

March/08

CL

CL

eff

eff

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