ATA5824-PLQW 80 Atmel, ATA5824-PLQW 80 Datasheet - Page 82

ATA5824-PLQW 80

Manufacturer Part Number

ATA5824-PLQW 80

Description

Manufacturer

Atmel

Datasheet

1.ATA5824-PLQW_80.pdf (98 pages)

Specifications of ATA5824-PLQW 80

Operating Temperature (min)

-40C

Operating Temperature (max)

105C

Operating Temperature Classification

Industrial

Product Depth (mm)

7mm

Product Height (mm)

0.9mm

Product Length (mm)

7mm

Operating Supply Voltage (typ)

Lead Free Status / Rohs Status

Compliant

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17. Electrical Characteristics: General (Continued)

All parameters refer to GND and are valid for T

can be found in the specific sections of the “Electrical Characteristics”.

*) Type means: A = 100% tested, B = 100% correlation tested, C = Characterized on samples, D = Design parameter

Note:

5.10

VS2

No. Parameters

5.1

5.2

5.3 XTO start-up time

5.4 Maximum C

5.5 Internal capacitors

5.6

5.7

5.8

5.9

= 433.92 MHz (battery application) unless otherwise specified. Details about current consumption, timing and digital pin properties

= 4.4V to 5.6V, V

XTO

Pulling XTO due to

XTO, C

tolerances

Transconductance XTO

at start

Pulling of radio

frequency f

XTO, C

versus temperature and

supply changes

Amplitude XTAL after

start-up

Real part of XTO

impedance at start-up

Maximum series

resistance R

after start-up

Nominal XTAL load

resonant frequency

1. Pin numbers in brackets mean they were measured with RF_IN matched to 50 according to

ATA5823/ATA5824

component values according to

page 22

and C

of XTAL

due to

of XTAL

VSINT

with component values according to

= 4.4V to 5.25V (car application). Typical values are given at V

Test Conditions

Pulling at nominal

temperature and supply

voltage

the XTAL

At start-up, after start-up the

amplitude is regulated to

Required for stable operation

with internal load capacitors

1.0 pF

PLL adjusted with FREQ at

nominal temperature and

supply voltage

V(XTAL1, XTAL2)

peak-to-peak value

V(XTAL1)

peak-to-peak value

impedance, this value is

important for crystal

oscillator startup

XTAL

PPXTAL

= 868.3 MHz

= 433.92 MHz

= 315 MHz

= 5 fF, C

< 14 fF

and C

2.2 pF

14 fF

2.2 pF

2.2 pF, small signal start

= resonant frequency of

1.0 pF

7.0 fF

120

14 fF

120

14 fF

Table 7-2 on page 12

= 1.8 pF

2.2 pF

amb

= –40°C to +105°C, V

Table 7-7 on page 22

24, 25

24, 25 T

24, 25

4, 10

(1)

(RF

VS1

) and RF_OUT matched to 50 according to

PWR_ON_IRQ_1

Symbol

= V

PPXTAL

m, XTO

m_max

XTAL

0max

XTO1

XTO2

, C

XTO

VS2

(RF

= V

OUT

VSINT

–100

Min.

14.8

VS1

–50

–2

= 2.15V to 3.6V (battery application), and

= V

VS2

13.41191

13.25311

12.73193

= V

–2000

18 pF

Typ.

300

700

350

XTAL

VSINT

Figure 7-1 on page 11

= 3V and T

–1500

Max.

+100

21.2

+50

800

120

3.8

Figure 7-12 on

amb

4829D–RKE–06/06

mVpp

MHz

Unit

ppm

= 25°C,

µs

Type*

with

ATA5824-PLQW 80 Atmel, ATA5824-PLQW 80 Datasheet - Page 82

ATA5824-PLQW 80

Specifications of ATA5824-PLQW 80

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