Operating conditions, Sa2411 transmitter requirements – Philips SA2411 User Manual

Philips Semiconductors

Product data

SA2411

+20 dBm single chip linear amplifier for WLAN

2003 Feb 07

7

9. OPERATING CONDITIONS

The SA2411 shall meet all of the operating conditions outlined in this section. Table 3 specifies the absolute maximum ratings for the device.
Table 4 gives the recommended operating conditions.

Table 3. Absolute maximum ratings

Symbol

Parameter

Min

Max

Unit

T

stg

Storage temperature

–55

+150

°

C

V

DDa

Supply voltage (analog)

–0.5

+3.85

V

–

Voltage applied to inputs

–0.5

V

DD

+0.5

V

–

Short circuit duration, to GND or V

DD

–

1

sec

Table 4. Recommended operating conditions

Symbol

Parameter

Min

Nom

Max

Units

T

amb

Ambient operating temperature

–40

–

+85

°

C

V

DDa

Supply voltage (analog)

2.85

3.3

3.6

V

10. SA2411 TRANSMITTER REQUIREMENTS

Table 5. SA2411 transmitter specifications

T

amb

= 25

°

C; V

CC

= 3 V; frequency = 2.45 GHz, R

detector

= 5.6 k

Ω

, unless otherwise stated.

Specification

Condition, Remarks

Min

Nom

Max

Units

DC

DC current

Standard mode (pin 10 is floating)

–

35

–

mA

DC current

Low output power mode (pin 10 is grounded)

–

28

–

mA

Leakage current

Vpwrup = 0 V. Vss = 3.0 V

–

–

10

µ

A

AC : 802.11b MODULATION

Output back off

(relative to 1 dB compression of single carrier)

–

2

–

dB

RF frequency

2.4

2.45

2.5

GHz

Input impedance

Differential (75

Ω

+ 25j

Ω

)

–

100

–

Ω

Load impedance

Single ended

–

50

–

Ω

Power gain for small signal

Mode = High gain, Input level = –20 dBm

–

14.5

–

dB

Power gain for small signal

Mode = Low gain, Input level = –20 dBm

–

13

–

dB

Output power

Meeting the FCC specs of 30 dBc and 50 dBc, mode = high

–

+20.0

–

dBm

Current consumption

“

–

200

–

mA

Gain

“

–

12.5

–

dB

Output power

Meeting the FCC specs of 30 dBc and 50 dBc, mode = low

–

+20.0

–

dBm

Current consumption

“

–

200

–

mA

Gain

“

–

12.5

–

dB

Power ramping up time

10% to 90% ramp up

–

0.5

–

µ

s

Power ramping down (when
enabled)

a)

90% to 10% ramp down

b)

10% to carrier leakage level

–

0.5
0.5

–

µ

s

Error Vector Magnitude

11 Msymbols/s QPSK. Both RF outputs.

–

5

–

%

Isolation

Pin 15 (PWRUP) = 0 V

–

15

–

dB

Harmonic Suppression at 2 and 3
times fundamental frequency

fundamental frequency output power = +20 dBm

–

40

–

dBc