ATA5423-PLSW Atmel, ATA5423-PLSW Datasheet - Page 26

ATA5423-PLSW

Manufacturer Part Number

ATA5423-PLSW

Description

IC TXRX ASK/FSK 315MHZ 48QFN

Manufacturer

Atmel

Datasheets

1.ATAB5428-8-WB.pdf (100 pages)

2.ATA5429-PLQW.pdf (2 pages)

Specifications of ATA5423-PLSW

Frequency

315MHz

Data Rate - Maximum

20kbps

Modulation Or Protocol

ASK, FSK

Applications

Alarm, ISM, Telemetry

Power - Output

5dBm

Sensitivity

-112.5dBm

Voltage - Supply

2.4 V ~ 3.6 V or 4.4 V ~ 6.6 V

Current - Receiving

10.5mA

Current - Transmitting

10mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Operating Temperature

-40°C ~ 85°C

Package / Case

48-VQFN Exposed Pad, 48-HVQFN, 48-SQFN, 48-DHVQFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Memory Size

Current page: 26 of 100
Download datasheet (2Mb)

ATA5423/ATA5425/ATA5428/ATA5429

enter the steep region of pulling versus load capacitance where there is a risk of an unstable

oscillation.

To ensure proper start-up behavior the small signal gain, and thus the negative resistance, pro-

vided by this XTO at start is very large; for example, oscillation starts up even in worst case with

a crystal series resistance of 1.5

approximately given by

with Z

XTAL2 with typically 19 mS at 25°C.

With f

tance of about 2 k . The worst case for technological, temperature and supply voltage variations

is then for C

Due to the large gain at startup, the XTO is able to meet a very low start-up time. The oscillation

start-up time can be estimated with the time constant

After 10

High if the amplitude is large enough. This sets N_RESET to High and activates the CLK output

if CLK_ON in control register 3 is High (see

VSOUT and DVCC voltage also have to be fulfilled (see

To save current in IDLE and Sleep modes, the load capacitors are partially switched off in these

modes with S1 and S2, as seen in

It is recommended to use a crystal with C

Lower values of C

higher values of C

Re Z

consists of crystals C

= –j/(2

of the XTAL has to be lower than C

= 1.0 pF to 2.2 pF.

= –j/(2

-----------------------------------------------------------------------------------------------------------

XTOcore

XTO

, Z

= 13.5 MHz, gm = 19 mS, C

to 20

as complex impedances at pin XTAL1 and XTAL2, hence

2.2 pF always higher than 1.5 k

XTO

an amplitude detector detects the oscillation amplitude and sets XTO_OK to

----------------------------------------------------------------------------------------------------- -

(up to 15 fF) can also be used, this has only little influence on pulling.

can be used, this increases the start-up time slightly. Lower values of C

Re Z

in parallel with an internal 110 k resistor hence

) /110 k , gm is the internal transconductance between XTAL1 and

) + 5 and Z

XTOcore

Figure

at C

Lmin

= 9 pF, and C

= –j/(2

4-2.

/2 = 3.7 pF for a Pierce oscillator type in order to not

Table

2.2 pF with this XTO. The negative resistance is

= 3.0 fF to 7.0 fF, C

7-7). Note that the necessary conditions of the

= 2.2 pF, this results in a negative resis-

XTO

Figure 4-2

) + 5 .

and

= 9 pF, R

Figure

5-1).

4841D–WIRE–10/07

< 120

and

ATA5423-PLSW Atmel, ATA5423-PLSW Datasheet - Page 26

ATA5423-PLSW

Specifications of ATA5423-PLSW

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