ATA5757-6DQJ Atmel, ATA5757-6DQJ Datasheet - Page 16

RF Transmitter ASK/FSK Transmitter 433MHz TPMS

ATA5757-6DQJ

Manufacturer Part Number

ATA5757-6DQJ

Description

RF Transmitter ASK/FSK Transmitter 433MHz TPMS

Manufacturer

Atmel

Type

Transmitterr

Datasheet

1.ATAB5756.pdf (20 pages)

Specifications of ATA5757-6DQJ

Package / Case

TSSOP-10

Operating Frequency

448 MHz

Mounting Style

SMD/SMT

Operating Supply Voltage

2.5 V, 3.3 V

Operating Temperature (min)

-40C

Operating Temperature (max)

125C

Operating Temperature Classification

Automotive

Operating Supply Voltage (typ)

2.5/3.3V

Operating Supply Voltage (max)

3.6V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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7. Electrical Characteristics (Continued)

V

Typical values are given at V

C

16

M

Parameters

Imaginary part of XTO1

Impedance in steady state

oscillation

Real part of XTO1 impedance in

small signal oscillation

Crystal oscillator start-up time

XTO drive current

Locking time of the PLL

PLL loop bandwidth

In loop phase noise PLL

Phase noise VCO

Frequency range of VCO

Clock output frequency (CMOS

microcontroller compatible)

Clock output minimum High and

Low time

Series resonance resistance of

the resonator seen from pin

XTO1

Capacitive load at Pin XTO1

FSK modulation frequency rate

FSK switch OFF resistance

FSK switch OFF capacitance

FSK switch ON resistance

ASK modulation frequency rate

S

= 2.0 V to 3.6 V, T

=

4.37

fF,

ATA5756/ATA5757

C

0

=

1.3

pF,

amb

C

= -40°C to 125°C unless otherwise specified.

LNOM

S

= 3.0 V and T

=

18

Test Conditions

Since pulling P is

P = -IM

Δf

with C

This value is important for crystal

oscillator start-up

Time between ENABLE of the IC with

FSK = H and activation of the CLK

output. The CLK is activated

synchronously to the output frequency

if the current through the XTAL has

reached 35% to 80% of its maximum

amplitude. Crystal parameters:

C

C

R

Current flowing through the crystal in

steady state oscillation (peak-to-peak

value)

Time between the activation of CLK

and when the PLL is locked

(transmitter ready for data

transmission)

25 kHz distance to carrier

at 1 MHz

at 36 MHz

ATA5756

ATA5757

ATA5756

ATA5757

C

Low = 0.2 × V

For proper detection of the XTO

amplitude

This corresponds to 20 kBaud in

Manchester coding and 40 kBaud in

NRZ coding

High Z

High Z capacitance

Low Z

Duty cycle of the modulation signal =

50%, this corresponds to 20 kBaud in

Manchester coding and 40 kBaud in

NRZ coding

M

LNOM

S

Load

XTO

pF,

≤ 60 Ω

=

4.37 fF, C

≤ 20 pF, High = 0.8 × Vs,

can be calculated out of IM

M

C

= 18 pF, C

XTO

4

= 4.37 fF

=

× C

amb

10

S

M

pF,

, f

0

= 25°C. All parameters are referred to GND (Pin 9).

× π × f

CLK

= 1.3 pF,

4

= 10 pF, C

C

< 1.7 MHz

5

=

XTO

15

pF and

5

= 15 pF,

XTO

R

S

≤

60

R

C

R

f

Symbol

f

f

MOD_FSK

MOD_ASK

Loop_PLL

RE

T

R

C

SWIT_OFF

SWIT_OFF

ΔT

IM

L

ΔT

SWIT_ON

Ω

I

L

L

f

DXTO

f

CLKLH

at36M

s_max

L_max

VCO

CLK

at1M

PLL

XTO

XTO

XTO

PLL

Min.

-650

0.75

310

432

125

j20

50

0

0

-1100

f

f

0

0

Typ.

-121

j110

300

250

130

0.6

-85

-90

0.9

/192

/256

Max.

-115

j200

175

250

317

448

150

-76

-84

1.4

1.1

20

20

5

4702J–RKE–09/08

dBc/Hz

dBc/Hz

dBc/Hz

µApp

Unit

MHz

MHz

MHz

kHz

kHz

kHz

ms

pF

kΩ

pF

µs

ns

Ω

Ω

Ω

Ω

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