BGU7063,115 Datasheet BGU7063,115, BGU7063,518 | P4-P6

Product data sheet Rev. 2 — 7 December 2012 4 of 16

NXP Semiconductors

BGU7063

Analog controlled high linearity low noise variable gain amplifier

5. Limiting values

[1] high gain mode: GS1 = LOW; GS2 = HIGH (see Table 9)

[2] low gain mode: GS1 = HIGH; GS2 = LOW (see Table 9

)

6. Recommended operating conditions

7. Thermal characteristics

[1] The case temperature is measured at the ground solder pad.

Table 4. Limiting values

In accordance with the Absolute Maximum Rating System (IEC 60134).

Symbol Parameter Conditions Min Max Unit

supply voltage 06 V

ctrl(Gp)

power gain control voltage 13.6 V

I(GS1)

input voltage on pin GS1 13.6 V

I(GS2)

input voltage on pin GS2 13.6 V

i(RF)CW

continuous waveform RF input power high gain mode; V

ctrl(Gp)

= 0 V

[1]

-10dBm

low gain mode; V

ctrl(Gp)

= 0 V

[2]

-15dBm

junction temperature -150C

stg

storage temperature 40 +150 C

ESD

electrostatic discharge voltage Human Body Model (HBM); according to

ANSI/ESDA-JEDEC JS-001-2020-Device Testing,

Human Body Model

- 2kV

Charged Device Model (CDM); according to

JEDEC standard 22-C101

- 750 V

Table 5. Recommended operating conditions

Symbol Parameter Conditions Min Typ Max Unit

CC1

supply voltage 1 4.75 5 5.25 V

CC2

supply voltage 2 4.75 5 5.25 V

ctrl(Gp)

power gain control voltage 0 - 3.3 V

I(GS1)

input voltage on pin GS1 0 - 3.3 V

I(GS2)

input voltage on pin GS2 0 - 3.3 V

characteristic impedance - 50 - 

case

case temperature 40 - +85 C

Table 6. Thermal characteristics

Symbol Parameter Conditions Typ Unit

th(j-case)

thermal resistance from junction to case

[1]

42 K/W

Product data sheet Rev. 2 — 7 December 2012 5 of 16

NXP Semiconductors

BGU7063

Analog controlled high linearity low noise variable gain amplifier

8. Characteristics

Table 7. Characteristics high gain mode

GS1 = LOW; GS2 = HIGH (see Table 9); V

CC1

= 5 V; V

CC2

= 5 V; f = 1950 MHz; T

amb

=25



C; input and output 50



;

unless otherwise specified. All RF parameters have been characterized at the device RF input and RF output terminals.

Symbol Parameter Conditions Min Typ Max Unit

CC(tot)

total supply current 200 230 265 mA

p(min)

minimum power gain V

ctrl(Gp)

= 3.3 V - 12.5 - dB

p(max)

maximum power gain V

ctrl(Gp)

= 0 V - 37.5 - dB

p(flat)

power gain flatness 1920 MHz  f  1980 MHz;

18 dB  G

 35 dB

-0.2-dB

NF noise figure V

ctrl(Gp)

= 0 V (maximum power gain) - 0.9 - dB

= 35 dB - 1.05 1.2 dB

= 18 dB - 6.40 - dB

IP3

input third-order intercept point 2-tone; tone-spacing = 1.0 MHz -

= 35 dB 0 0.9 - dBm

= 30 dB - 3.4 - dBm

= 29 dB - 3.8 - dBm

= 18 dB - 5.4 - dBm

i(1dB)

input power at 1 dB gain compression G

= 35 dB 14 12.5 - dBm

= 30 dB - 7.4 - dBm

= 29 dB - 7.0 - dBm

= 18 dB - 6.4 - dBm

input return loss V

ctrl(Gp)

= 0 V (maximum power gain) - 35 - dB

= 35 dB - 31 - dB

out

output return loss V

ctrl(Gp)

= 0 V (maximum power gain) - 15 - dB

K Rollett stability factor 0 GHz  f  12.75 GHz 1 - -

Table 8. Characteristics low gain mode

GS1 = HIGH; GS2 = LOW (see Table 9

); V

CC1

= 5 V; V

CC2

= 5 V; f = 1950 MHz; T

amb

=25



C; input and output 50



;

unless otherwise specified. All RF parameters have been characterized at the device RF input and RF output terminals.

Symbol Parameter Conditions Min Typ Max Unit

CC(tot)

total supply current 165 190 215 mA

p(min)

minimum power gain V

ctrl(Gp)

= 3.3 V - 6.6 - dB

p(max)

maximum power gain V

ctrl(Gp)

= 0 V - 18.6 - dB

p(flat)

power gain flatness 1920 MHz  f  1980 MHz;

3dB G

 17 dB

-0.2-dB

NF noise figure G

= 17 dB - 11.3 - dB

= 3 dB - 22.0 - dB

IP3

input third-order intercept point 2-tone; tone-spacing = 1.0 MHz -

= 17 dB - 20 - dBm

= 12 dB - 24 - dBm

= 11 dB - 25 - dBm

= 3 dB - 28 - dBm

Product data sheet Rev. 2 — 7 December 2012 6 of 16

NXP Semiconductors

BGU7063

Analog controlled high linearity low noise variable gain amplifier

8.1 Graphs

i(1dB)

input power at 1 dB gain compression G

= 17 dB - 6.0 - dBm

= 12 dB - 10.0 - dBm

= 11 dB - 10.5 - dBm

= 3 dB - 10.5 - dBm

input return loss V

ctrl(Gp)

= 0 V (maximum power gain) - 30 - dB

= 17 dB - 25 - dB

out

output return loss V

ctrl(Gp)

= 0 V (maximum power gain) - 18 - dB

K Rollett stability factor 0 GHz  f  12.75 GHz 1 - -

Table 8. Characteristics low gain mode …continued

GS1 = HIGH; GS2 = LOW (see Table 9); V

CC1

= 5 V; V

CC2

= 5 V; f = 1950 MHz; T

amb

=25



C; input and output 50



;

unless otherwise specified. All RF parameters have been characterized at the device RF input and RF output terminals.

Symbol Parameter Conditions Min Typ Max Unit

Table 9. Gain switch truth table

CC1

= 5 V; V

CC2

= 5 V;







amb



+85



Gain mode GS1 GS2

logic V

GS1

logic V

GS2

high gain mode LOW 0 V to 0.5 V HIGH 2 V to 3.3 V

low gain mode HIGH 2 V to 3.3 V LOW 0 V to 0.5 V

GS1 = LOW; GS2 = HIGH; V

CC1

=5V; V

CC2

=5V;

ctrl(Gp)

=0V.

(1) T

amb

= 10 C

(2) T

amb

=+25C

(3) T

amb

=+85C

GS1 = HIGH; GS2 = LOW; V

CC1

=5V; V

CC2

=5V;

ctrl(Gp)

=0V.

(1) T

amb

= 10 C

(2) T

amb

=+25C

(3) T

amb

=+85C

Fig 3. Power gain as a function of frequency in high

gain mode; typical values

Fig 4. Power gain as a function of frequency in low

gain mode; typical values

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BGU7063,115

Mfr. #:

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Manufacturer:

NXP Semiconductors

Description:

IC AMP CEL 1.92-1.98GHZ 16HLQFN

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BGU7063,115

BGU7063,115

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