Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

8532135 21064

DESCRIPTION

The SA9502 integrates all the front end receive mixers necessary
for use in dual-band, triple-mode CDMA/AMPS cellular phone
handsets. There are three individual mixer blocks, each optimised
for high linearity with low power consumption for operation in one of
the following modes: High-band 1900MHz PCS CDMA, low-band
800MHz cellular CDMA or analog FM AMPS/TACS modes.
Additionally, the entire circuit can be powered down and put into
sleep mode, reducing the supply current to typically 12

A. The

circuit has been designed in our advanced QUBiC2 BiCMOS
process with 20GHz f

FEATURES

PCS and cellular downconverter mixers typical performance:

PCS:

Gain=11.1dB, NF=8.4dB, IIP3= +1.8dBm

CDMA:

Gain=11.3dB, NF=9.4dB, IIP3= +5.7dBm

FM:

Gain= 7.5dB, NF=10.5dB, IIP3= +6.2dBm

Separate, selectable IF outputs to suit FM and CDMA bandwiths

PCS mixer LO: direct or via internal frequency doubler

Switchable wideband LO output buffer

Low voltage operation down to 2.7V

Low current consumption in "idle"/receive modes:

PCS :

14.3mA @ 2.7V

CDMA:

17.6mA @ 2.7V

FM:

6.8mA @ 2.7V

Low standby current in sleep mode, typically 12

TSSOP20 package

APPLICATIONS

800MHz analog FM and CDMA digital receivers

1900MHz PCS band CDMA digital recievers

Supports dual-mode and triple-mode operation

Digital mobile communications equipment

Portable, low power radio equipment

ORDERING INFORMATION

EXTENDED

PACKAGE

TYPE NUMBER

PINS

PIN POSITION

MATERIAL

CODE

SA9502DH

TSSOP

Plastic thin shrink small outline package; body 6.5 x 4.4 x 1.1 mm

SOT360-1

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PIN CONFIGURATION

FM IF

FM IFB

GND

PCS RF

PCS RFB

PCS/CEL SEL

PWR ON/OFF

CEL RF

GND

CDMA IF

CDMA IFB

GND

CDMA/FM SEL

CEL LO IN

GND

PCS LO

GND

LO BUFFER ENABLE

LO OUT

SR01760

Figure 2.

Pin Configuration

PIN DESCRIPTION

PIN

SYMBOL

DESCRIPTION

FM IF

Non-inverting FM IF output

FM IFB

Inverting FM IF output

GND

Analog ground

PCS RF

non-inverting PCS RF input

PCS RFB

Inverting PCS RF input

PCS/CEL SEL

PCS and cellular band select

PWR ON/OFF

Power enable

CEL RF

Cellular RF input

GND

Ground

Power supply

LO OUT

LO output to synthesizer

GND

Ground

LO BUFFER
ENABLE

Logic signal which switches the LO
buffer output ON or OFF

PCS LO

PCS mixer direct LO input

GND

Ground

CEL LO

Cellular LO input

CDMA/FM SEL

CDMA and FM mode select in cellular
band; LO direct or via frequency
doubler in PCS mode

GND

Ground

CDMA IFB

Inverting CDMA IF output

CDMA IF

Non-inverting CDMA IF output

FUNCTIONAL DESCRIPTION

Mode Selection Logic

The SA9502 downconverter IC has several modes of operation for
which the selection logic is summarized in Table 1 and defined in
detail in Table 2. Different mode selections require different portions
of the circuit to be active. It should be noted that only the states
specified in Table 2 are valid selections for operation.

Local Oscillator Section

Local oscillator drive for the mixers is provided through single ended
inputs on either pin 16 (CEL LO) or pin 14 (PCS LO). The LO signal
has to be AC-coupled into the circuit and needs to be externally
matched. Inside the circuit, the cellular band LO signal is amplified
and buffered to drive: Either the cellular CDMA mixer or FM mixer
or the frequency doubler for the PCS mixer LO and additionally the
LO output buffer. The mode selection summary in Table 1 shows the
logic to apply to pins 6 and 17 to choose one of four possible
modes. The LO output buffer can be programmed on or off via LO
Buffer Enable (Pin 13). The LO output buffer's frequency is the
same as that used by the mixers.

Cellular and PCS Mixers

The SA9502 has one single ended cellular band RF input which
feeds either the cellular CDMA mixer or the cellular FM mixer
circuits. Each mixer is optimized to meet cellular band CDMA or
analog FM requirements. The cellular FM mixer has its own
dedicated differential output on pins 1 and 2 which should to be
externally matched to the FM IF SAW filter. The cellular CDMA
mixer shares the same output pins with the CDMA PCS mixer.
Selection between these two mixers is via pin 6 (PCS/CEL) and as
the two mixers are never on at the same time, it allows a common
CDMA SAW filter to be used for both bands. The CDMA PCS mixer
has a differential RF input which should be used with an external
balun matching circuit. To avoid upsetting the internal biasing, the
RF inputs at both cellular and PCS band mixers should be
AC-coupled in. The CDMA and FM IF mixer outputs are of the open
collector type. So, they should be biased to the supply voltage V

with external tuning inductors which can also serve in the matching
of the IF SAW filter.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

ABSOLUTE MAXIMUM RATINGS

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

PARAMETER

ÁÁÁÁÁÁÁÁÁÁÁ

RATINGS

ÁÁÁÁ

UNITS

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Supply voltage (V

)

ÁÁÁÁÁÁÁÁÁÁÁ

0.3 to +6.0

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Logic input voltage

ÁÁÁÁÁÁÁÁÁÁÁ

0.3 to V

+0.3

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Maximum power input

ÁÁÁÁÁÁÁÁÁÁÁ

+20

ÁÁÁÁ

dBm

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Power dissipation, T

amb

=25

ÁÁÁÁÁÁÁÁÁÁÁ

800

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Maximum operating junction temperature

ÁÁÁÁÁÁÁÁÁÁÁ

150

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Storage temperature

ÁÁÁÁÁÁÁÁÁÁÁ

65 to +150

ÁÁÁÁ

RECOMMENDED OPERATING CONDITIONS

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

PARAMETER

ÁÁÁÁÁÁÁ

TEST CONDITIONS

ÁÁÁÁÁÁÁÁÁÁÁ

LIMITS

ÁÁÁÁ

UNITS

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

PARAMETER

ÁÁÁÁÁÁÁ

TEST CONDITIONS

ÁÁÁÁ

MIN.

ÁÁÁÁÁ

TYP.

ÁÁÁÁ

MAX.

ÁÁÁÁ

UNITS

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Supply voltage (V

)

ÁÁÁÁÁÁÁ

ÁÁÁÁ

2.7

ÁÁÁÁÁ

3.0

ÁÁÁÁ

4.0

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Logic input voltage range

ÁÁÁÁÁÁÁ

LOW

ÁÁÁÁ

0.3

ÁÁÁÁÁ

ÁÁÁÁ

0.2V

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Logic input voltage range

ÁÁÁÁÁÁÁ

HIGH

ÁÁÁÁ

0.5V

ÁÁÁÁÁ

ÁÁÁÁ

+0.3

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Operating ambient temperature range (T

amb

)

ÁÁÁÁÁÁÁ

ÁÁÁÁ

ÁÁÁÁÁ

ÁÁÁÁ

+85

ÁÁÁÁ

ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ

Operating junction temperature range

ÁÁÁÁÁÁÁ

ÁÁÁÁ

ÁÁÁÁÁ

ÁÁÁÁ

105

ÁÁÁÁ

MODE SELECT LOGIC AND DC CHARACTERISTICS

Table 2.

Mode Logic Definition

= 2.7 V to 4.0 V; T

amb

= 30

C to +85

C, unless specified otherwise.

MODE

MODE DESCRIPTION

BUFFER
ENABLE

POWER
ON/OFF

PCS/CEL

CDMA/FM

TYPICAL

CURRENT

CONSUMPTION

@ V

= 2.7 V

MAXIMUM
CURRENT

CONSUMPTION

FIGURE

PCS RxTx
(with doubled LO)

high

27.3 mA

33 mA

PCS Idle
(with doubled LO)

low

high

18.4 mA

22 mA

PCS RxTx
(with direct LO)

high

low

23.3 mA

28 mA

PCS Rx Idle
(with direct LO)

low

high

low

14.3 mA

17 mA

Cellular CDMA RxTx

high

low

high

23.2 mA

28.5 mA

Cellular CDMA Rx Idle

low

high

low

high

17.6 mA

21.0 mA

Cellular FM RxTx

high

low

11.9 mA

15.5 mA

Cellular FM Rx Idle

low

high

low

6.8 mA

7.8 mA

Sleep

low

NOTE:
x = Don't care

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

AC ELECTRICAL CHARACTERISTICS

= 2.7V; T

amb

= +25

C; P

= 3 dBm, f

= 85.40 MHz and measured on Philips demonstration board; unless specified otherwise.

PARAMETER

TEST CONDITIONS

UNITS

PARAMETER

TEST CONDITIONS

MIN.

TYP.

MAX.

UNITS

Cellular Band Downconverter

RF input frequency range

869

894

MHz

LO input frequency range

950

1030

MHz

IF output frequency range (CDMA)

300

MHz

IF output frequency range (FM)

300

MHz

IF output load impedance

CDMA, differential

1000

IF output load impedance

FM, single-ended, with ext. balun

850

Conversion gain

CDMA

10.7

11.3

11.9

Conversion gain

7.0

7.5

8.0

Noise figure

CDMA mode, SSB

9.4

10.0

Noise figure

FM mode, SSB

10.5

10.7

Input IP3

CDMA mode, tone spacing = 900 kHz and
1.7 MHz

4.8

5.7

dBm

FM mode, tone spacing = 60 kHz

5.3

6.2

dBm

RF input return loss

= 50

11.0

LO input return loss

= 50

10.0

LO output return loss

= 50

8.0

LO input power range

6.0

3.0

0.0

dBm

LO output power range

= 50

single LO out

with LO buffer on (Pin 13 = High)

7.5

5.0

3.0

dBm

LO (input and output) to RF leakage

Single-ended in, single-ended out

34.5

31.5

dBm

LO (output) to IF leakage (CDMA)

Single-ended in, differential out

33.6

29.0

dBm

LO (output) to IF leakage (FM)

Single-ended in, differential out

20.0

17.5

dBm

LO (input) to IF leakage (CDMA)

Single-ended in, differential out

27.7

26.5

dBm

LO (input) to IF leakage (FM)

Single-ended in, differential out

18.5

17.8

dBm

RF to LO (input) isolation

Single-ended in, single-ended out

32.8

RF to IF isolation (CDMA)

Single-ended in, differential out

17.7

RF to IF isolation (FM)

Single-ended in, differential out

8.2

LO output to LO input isolation

Single-ended in, single-ended out

26.5

Spurious response rejection

With Tx band interferer at LO input port or
LO buffer output port of 40 dBm max and
with Pint = 31 dBm in Rx band.

(CDMA mode)

With Tx band interferer at RF input port of
40 dBm max and with Pint = 31 dBm in
Rx band.

Spurious response rejection

With Tx band interferer at LO input port or
LO buffer output port of 40 dBm max and
with Pint = 31 dBm in Rx band.

(FM mode)

With Tx band interferer at RF input port of
40 dBm max and with Pint = 31 dBm in
Rx band.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

AC ELECTRICAL CHARACTERISTICS (continued)

= 2.7V; T

amb

= +25

C; P

= 3 dBm, f

= 85.40 MHz and measured on Philips demonstration board; unless specified otherwise.

PARAMETER

TEST CONDITIONS

UNITS

PARAMETER

TEST CONDITIONS

MIN

TYP.

MAX.

UNITS

PCS Downconverter

RF input frequency range

1810

1990

MHz

LO input frequency range

With doubler

860

1050

MHz

LO input frequency range

Direct PCS LO

1720

2200

MHz

IF output frequency range

300

MHz

IF output load impedance

Differential

1000

Conversion gain

@ f

, over RF/LO frequency ranges

10.5

11.1

11.7

Noise figure

@ f

, over RF/LO frequency ranges, SSB

8.4

9.3

Input IP3

@ f

, over RF/LO frequency

direct LO

0.5

1.8

dBm

Input IP3

ranges at 25

C @ V

= 3.6V

doubled LO

0.1

1.2

dBm

RF input return loss

= 50

, with external balun

7.5

LO input return loss

= 50

LO output return loss

= 50

single LO out

LO input power range

dBm

LO output power range

= 50

single LO out with LO buffer on

(Pin 13 = High)

10.0

8.5

dBm

LO (input and output) to RF leakage

Single-ended in, single-ended out,
with and without doubler

dBm

LO (input and output) to IF leakage

Single-ended in, differential out,
with and without doubler

dBm

RF to LO (input) isolation

Single-ended in, single-ended out,
with and without doubler

RF to IF isolation

Single-ended in, differential out

LO output to LO input isolation

Single-ended in, single-ended out,
with doubler

1/2 IF supurious rejection

1/2 IF spur, f

= 85.4 MHz/111.38 MHz,

with doubler, P

int

= 30 dBm at RF input.

1/2 IF supurious rejection

1/2 IF spur, f

= 85.4 MHz/111.38 MHz,

without doubler, P

int

= 30 dBm at RF input.

Spurious response rejection

With Tx band interferer at LO input port or LO
buffer output port of 40 dBm max and with
P

int

= 21 dBm in Rx band.

Spurious response rejection

With Tx band interferer at RF
input port of 40 dBm max and

direct LO

in ut ort of 40 dBm max and
with P

int

= 21 dBm in Rx band.

doubled LO

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PERFORMANCE CHARACTERISTICS

DC Current Consumption

+25

+85

30.0

29.0

28.0

27.0

26.0

2.4

2.8

3.2

3.6

4.0

4.4

CURRENT

(mA)

(V)

SR01825

Figure 3.

PCS RxTx (with doubled LO out) current

+25

+85

20.0

19.0

18.0

17.0

2.4

2.8

3.2

3.6

4.4

CURRENT

(mA)

SR01826

(V)

Figure 4.

PCS Idle (with doubled LO out) current

+25

+85

26.0

25.0

24.0

23.0

22.0

2.4

2.8

3.2

3.6

4.4

CURRENT

(mA)

(V)

SR01827

Figure 5.

PCS RxTx current

+25

+85

16.0

15.0

14.0

13.0

2.4

2.8

3.2

3.6

4.4

(V)

CURRENT

(mA)

SR01828

Figure 6.

PCS Rx Idle current

+25

+85

26.0

25.0

24.0

23.0

22.0

21.0

2.4

2.8

3.2

3.6

4.4

CURRENT

(mA)

(V)

SR01829

Figure 7.

Cellular CDMA RxTx current

+25

+85

20.0

19.0

18.0

17.0

16.0

2.4

2.8

3.2

3.6

4.4

CURRENT

(mA)

(V)

SR01830

Figure 8.

Cellular CDMA Rx Idle current

+25

+85

14.0

13.0

12.0

11.0

2.4

2.8

3.2

3.6

4.4

(V)

CURRENT

(mA)

SR01831

Figure 9.

Cellular FM RxTx current

+25

+85

7.5

7.0

6.5

6.0

2.4

2.8

3.2

3.6

4.4

CURRENT

(mA)

(V)

SR01832

Figure 10.

Cellular FM Rx Idle current

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PERFORMANCE CHARACTERISTICS

Mixer Noise Figure

NOISE FIGURE (dB)

CELLULAR
FM

CELLULAR
CDMA

SR01807

Noise Figure vs. Temperature

= 3.6V, Cellular RF Freq. = 880 MHz

105

11.2

10.8

10.4

10.0

9.6

9.2

8.8

TEMPERATURE (

Figure 11.

NOISE FIGURE (dB)

CELLULAR
FM

CELLULAR
CDMA

SR01808

11.0

10.5

10.0

9.5

9.0

8.5

8.0

Noise Figure vs. Cellular RF Frequency

= 3.6V, T = 25

FREQUENCY (MHz)

865

870

875

880

885

890

895

Figure 12.

NOISE FIGURE (dB)

PCS,
DIRECT LO

PCS,
DOUBLED LO

SR01809

Noise Figure vs. Temperature

= 3.6V, PCS RF Freq. = 1960 MHz

TEMPERATURE

12.0

10.0

8.0

6.0

4.0

2.0

105

Figure 13.

NOISE FIGURE (dB)

PCS,
DIRECT LO

PCS,
DOUBLED LO

Noise Figure vs. PCS RF Frequency

= 3.6V, T = 25

SR01810

10.0

9.0

8.0

7.0

6.0

5.0

1920

1940

1960

1980

2000

FREQUENCY (MHz)

Figure 14.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PERFORMANCE CHARACTERISTICS

Conversion Gain FM Mixer

2.7V

3.6V

GAIN (dB)

FREQUENCY (MHz)

SR01811

Conversion Gain vs. Frequency

T = 25

C, Cellular FM

8.0

7.8

7.6

7.4

7.2

7.0

860

870

880

890

900

Figure 15.

SR01811

+25

+85

FREQUENCY (MHz)

860

GAIN (dB)

870

880

890

900

Conversion Gain vs. Frequency

= 3.6V, Cellular FM

9.0

8.5

8.0

7.5

7.0

6.5

6.0

Figure 16.

= 2.7V

= 3.6V

= 4.0V

SR01814

LO INPUT POWER (dBm)

GAIN (dB)

Conversion Gain vs. LO Input Power

T = 25

C, Cellular FM

9.0

8.0

7.0

6.0

5.0

4.0

3.0

Figure 17.

+25

+85

SR01815

LO INPUT POWER (dBm)

GAIN (dB)

Conversion Gain vs. LO Input Power

= 3.6V, Cellular FM

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

Figure 18.

Conversion Gain vs. RF Input Power

T = 25

C, Cellular FM

= 2.7V

= 3.6V

= 4V

7.5

7.0

6.5

6.0

GAIN (dB)

RF INPUT POWER (dBm)

SR01833

Figure 19.

Conversion Gain vs. RF Input Power

= 3.6V, Cellular FM

+25

+85

7.8

7.4

7.0

6.6

6.2

5.8

5.4

5.0

GAIN (dB)

RF INPUT POWER (dBm)

SR01834

Figure 20.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PERFORMANCE CHARACTERISTICS

Conversion Gain Cellular Band CDMA Mixer

Conversion Gain vs. Frequency

T = 25

C, Cellular CDMA

2.7V

3.6V

865

870

875

880

885

890

895

11.5

11.4

11.3

11.2

11.1

11.0

GAIN (dB)

FREQUENCY (MHz)

SR01798

Figure 21.

SR01799

Conversion Gain vs. Frequency

= 3.6V, Cellular CDMA

+25

+85

FREQUENCY (MHz)

860

GAIN (dB)

870

880

890

900

9.5

10.0

10.5

11.0

11.5

12.0

12.5

13.0

13.5

Figure 22.

= 2.7V

= 3.6V

= 4.0V

Conversion Gain vs. LO Input Power

T = 25

C, Cellular CDMA

12.0

11.0

10.0

9.0

8.0

7.0

6.0

5.0

4.0

3.0

2.0

SR01803

LO INPUT POWER (dBm)

GAIN (dB)

Figure 23.

+25

+85

12.0

11.0

10.0

9.0

8.0

7.0

6.0

5.0

4.0

3.0

2.0

SR01804

LO INPUT POWER (dBm)

GAIN (dB)

Conversion Gain vs. LO Input Power

= 3.6V, Cellular CDMA

Figure 24.

12.0

11.0

10.0

9.0

8.0

GAIN (dB)

Conversion Gain vs. RF Input Power

T = 25

C, Cellular CDMA

= 2.7V

= 3.6V

= 4.0V

SR01806

RF INPUT POWER (dBm)

Figure 25.

12.0

11.0

10.0

9.0

8.0

GAIN (dB)

Conversion Gain vs. RF Input Power

= 3.6V, Cellular CDMA

+25

+85

SR01805

RF INPUT POWER (dBm)

Figure 26.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PERFORMANCE CHARACTERISTICS

Conversion Gain PCS Mixer

Conversion Gain vs. Frequency

T = 25

C, PCS, Doubled LO

+2.7V

+3.6V

11.5

10.5

1920

1940

1960

1980

2000

FREQ. (MHz)

GAIN (dB)

SR01835

Figure 27.

Conversion Gain vs. Frequency

= 3.6V, PCS, Doubled LO

+25

+85

13.5

12.5

11.5

10.5

9.5

8.5

1920

1940

1960

1980

2000

GAIN (dB)

FREQ. (MHz)

SR01836

Figure 28.

LO INPUT POWER (dBm)

Conversion Gain vs. LO Input Power

T = 25

C, PCS, Doubled LO

= +2.7

= +3.6

= +4

12.0

10.0

8.0

6.0

4.0

2.0

0.0

2.0

4.0

6.0

8.0

GAIN (dB)

SR01837

Figure 29.

Conversion Gain vs. LO Input Power

= 3.6V, PCS, Doubled LO

+25

+85

12.0

10.0

8.0

6.0

4.0

2.0

0.0

2.0

4.0

6.0

8.0

GAIN (dB)

LO INPUT POWER (dBm)

SR01838

Figure 30.

Conversion Gain vs. RF Input Power

T = 25

C, PCS, Doubled LO

= +2.7V

= +3.6V

= +4V

11.5

11.0

10.5

10.0

9.5

GAIN (dB)

RF INPUT POWER (dBm)

SR01839

Figure 31.

Conversion Gain vs. RF Input Power

= 3.6V, PCS, Doubled LO

+25

+85

11.5

11.0

10.5

10.0

9.5

9.0

8.5

GAIN (dB)

RF INPUT POWER (dBm)

SR01840

Figure 32.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

Conversion Gain vs. Frequency

T = 25

C, PCS, Direct LO

= +3.6 V

= +2.7 V

12.0

11.5

11.0

10.5

10.0

1920

1940

1960

1980

2000

GAIN (dB)

FREQ. (MHz)

SR01841

Figure 33.

Conversion Gain vs. Frequency

= 3.6V, PCS, Direct LO

+25

+85

13.0

12.5

12.0

11.5

11.0

10.5

10.0

9.5

9.0

1920

1940

1960

1980

2000

GAIN (dB)

FREQ. (MHz)

SR01842

Figure 34.

Conversion Gain vs. LO Input Power

T = 25

C, PCS, Direct LO

= 2.7V

= 3.6V

= 4V

12.0

11.0

10.0

9.0

8.0

7.0

6.0

GAIN (dB)

LO INPUT POWER (dBm)

SR01843

Figure 35.

Conversion Gain vs. LO Input Power

= 3.6V, PCS, Direct LO

+25

+85

12.0

11.0

10.0

9.0

8.0

7.0

6.0

5.0

4.0

3.0

GAIN (dB)

LO INPUT POWER (dBm)

SR01844

Figure 36.

Conversion Gain vs. RF Input Power

T = 25

C, PCS, Direct LO

= 2.7V

= 3.6V

= 4V

12.0

11.0

10.0

9.0

8.0

RF INPUT POWER (dBm)

GAIN (dB)

SR01845

Figure 37.

Conversion Gain vs. RF Input Power

= 3.6V, PCS, Direct LO

+25

+85

12.0

11.0

10.0

9.0

8.0

GAIN (dB)

RF INPUT POWER (dBm)

SR01846

Figure 38.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PERFORMANCE CHARACTERISTICS

Input IP3

5.5

Input IP3 vs. Temperature

= 3.6V, Cellular RF Freq: 880 MHz

CELL
CDMA

CELL
FM

8.0

7.5

7.0

6.5

6.0

5.0

4.5

4.0

105

INPUT IP3 (dBm)

TEMP (C)

SR01847

8.5

Figure 39.

Input IP3 vs. V

T = 25

C, Cellular RF Freq: 880 MHz

CELL FM

CELL CDMA

7.0

6.5

6.0

5.5

5.0

2.5

3.5

INPUT IP3 (dBm)

(V)

SR01848

7.5

Figure 40.

Input IP3 vs. Temperature

= 3.6V, PCS RF Freq: 1960 MHz

PCS
DIRECT LO

PCS
DOUBLED LO

2.5

1.5

0.5

105

INPUT IP3 (dBm)

TEMP (C)

SR01849

Figure 41.

Input IP3 vs. V

T = 25

C, PCS RF Freq: 1960 MHz

PCS
DIRECT LO

PCS
DOUBLED LO

1.6

1.2

0.8

0.4

2.5

3.5

(V)

INPUT IP3 (dBm)

SR01850

Figure 42.

Input IP3 vs. Cellular RF Frequency

= 3.6V, T = 25

CELL CDMA

CELL FM

7.5

6.5

5.5

865

870

875

880

885

890

895

INPUT IP3 (dBm)

FREQ. (MHz)

SR01851

Figure 43.

Input IP3 vs. PCS RF Frequency

= 3.6V, T = 25

PCS
DIRECT LO

PCS
DOUBLED LO

2.5

1.5

0.5

1920

1940

1960

1980

2000

INPUT IP3 (dBm)

FREQ (MHz)

SR01852

Figure 44.

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

PERFORMANCE CHARACTERISTICS

1: 128.87

67.805

1.5GHz

2: 152.73

22.836

1.8GHz

3: 118.62

67.359

2.0GHz

4: 75.051

69.055

1.0476pF
2.2GHz

START:

1.40GHz

STOP:

2.65GHz

SR01779

Figure 45.

Typical S

of LO Output for the PCS Band @ V

= 3.6V

Table 3.

Typical S-Parameter of PCS LO Output @ V

= 3.6V

FREQUENCY (MHz)

(DEG)

1400

0.54

29.37

1450

0.54

25.04

1500

0.55

20.11

1550

0.54

15.16

1600

0.54

10.52

1650

0.54

6.32

1700

0.53

1.21

1750

0.52

2.79

1800

0.51

6.41

1850

0.52

9.43

1900

0.52

13.94

1950

0.53

18.30

2000

0.53

22.79

2050

0.53

27.61

2100

0.53

32.24

2150

0.52

36.61

2200

0.52

41.20

2250

0.51

45.82

2300

0.50

50.03

2350

0.49

54.48

2400

0.47

59.11

2450

0.46

63.38

2500

0.43

66.38

2550

0.42

68.80

2600

0.41

71.64

2650

0.41

74.32

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

1: 35.711

3.1914

200.25MHz

2: 23.251

18.894

500MHz

3: 30.5

50.623

900MHz

4: 53.047

77.758

10.313nH
1.2GHz

START:

100MHz

STOP:

1.35GHz

SR01780

Figure 46.

Typical S

of LO Output for the Cellular Band @ V

= 3.6V

Table 4.

Typical S-Parameter of LO Output for Cellular Band @ V

= 3.6V

FREQUENCY (MHz)

(DEG)

100

0.09

143.49

150

0.13

153.08

200

0.17

165.13

250

0.21

176.62

300

0.26

172.24

350

0.31

161.47

400

0.36

150.70

450

0.40

140.09

500

0.43

130.28

550

0.46

121.52

600

0.48

113.59

650

0.50

106.59

700

0.52

100.18

750

0.54

94.52

800

0.55

89.12

850

0.56

84.05

900

0.57

78.74

950

0.57

73.92

1000

0.58

69.23

1050

0.59

64.44

1100

0.59

59.62

1150

0.60

55.17

1200

0.60

50.70

1250

0.60

46.34

1300

0.61

42.11

1350

0.61

37.86

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

1: 35.711

3.1914

200.25MHz

2: 23.251

18.894

500MHz

3: 30.5

50.623

900MHz

4: 53.047

77.758

10.313nH
1.2GHz

START:

100MHz

STOP:

1.35GHz

SR01781

Figure 47.

Typical S

of CDMA IF, CDMA IFB, FM IF and FM IFB Output @ V

= 3.6V

Table 5.

Typical S-Parameter of CDMA IF and CDMA IFB, FM IF and FM IFB Output @ 3.6V

Freq ency (MHz)

CDMA IF and CDMA IFB Modes

FM IF and FM IFB Modes

Frequency (MHz)

(DEG)

0.99

3.28

0.99

3.47

0.99

6.54

0.99

6.84

0.99

9.66

0.99

10.15

0.98

12.94

0.99

13.58

100

0.98

16.27

0.99

17.02

120

0.98

19.53

0.99

20.40

140

0.98

22.81

0.98

23.76

160

0.98

26.02

0.98

27.01

180

0.98

29.28

0.98

30.48

200

0.98

32.69

0.97

33.94

220

0.97

35.92

0.97

37.22

240

0.97

39.50

0.97

40.78

260

0.96

42.76

0.96

44.19

280

0.96

46.15

0.95

47.55

300

0.96

49.62

0.95

51.00

320

0.96

53.12

0.94

54.46

340

0.95

56.57

0.94

57.83

360

0.95

60.22

0.93

61.32

380

0.95

63.71

0.92

64.61

400

0.94

67.33

0.92

68.11

420

0.94

70.92

0.91

71.43

440

0.93

74.64

0.90

74.72

460

0.93

78.22

0.90

78.22

480

0.93

81.92

0.89

81.58

500

0.92

85.75

0.88

84.90

520

0.91

89.44

0.88

88.28

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

1: 42.641

83.805

1.5GHz

2: 30.84

66.172

1.8GHz

3: 25.9

56.061

1.4195pF
2.0GHz

4: 19.625

46.301

2.2GHz

START:

1.40GHz

STOP:

2.65GHz

SR01782

Figure 48.

Typcial S

of PCS RF and PCS RFB Input @ V

= 3.6V

Table 6.

Typical S-Parameter of PCS RF and PCS RFB Input @ V

= 3.6V

FREQUENCY (MHz)

(DEG)

1400

0.68

48.65

1450

0.68

50.83

1500

0.68

52.86

1550

0.67

55.14

1600

0.67

57.35

1650

0.67

59.59

1700

0.66

62.09

1750

0.66

64.21

1800

0.66

66.78

1850

0.66

69.35

1900

0.65

71.92

1950

0.65

74.58

2000

0.65

76.86

2050

0.65

79.82

2100

0.66

82.80

2150

0.66

85.95

2200

0.66

89.71

2250

0.66

93.52

2300

0.66

97.51

2350

0.65

101.41

2400

0.63

105.60

2450

0.61

109.66

2500

0.59

114.00

2550

0.56

117.05

2600

0.53

119.59

2650

0.50

120.82

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

1: 146.62

201.27

200MHz

2: 68.742

127.57

400MHz

3: 43.234

86.684

600MHz

4: 24.848

50.137

3.5271pF
900MHz

START:

100MHz

STOP:

1.35GHz

SR01783

Figure 49.

Typical S

of Cellular RF Input for CDMA and FM Mode @ V

= 3.6V

Table 7.

Typical S-Parameter of Cellular RF Input for CDMA and FM Modes @3.6V

Freq ency (MHz)

CDMA Mode

FM Mode

Frequency (MHz)

(DEG)

100

0.82

11.35

0.77

10.9

150

0.81

14.93

0.76

15.1

200

0.79

18.80

0.75

19.9

250

0.78

22.71

0.74

25.0

300

0.77

26.70

0.72

29.9

350

0.75

30.70

0.70

34.9

400

0.74

34.86

0.68

39.8

450

0.72

39.00

0.65

44.5

500

0.71

43.20

0.63

48.6

550

0.69

47.57

0.60

53.1

600

0.68

52.12

0.58

56.9

650

0.67

56.63

0.57

60.6

700

0.66

61.76

0.56

64.5

750

0.64

66.93

0.56

68.5

800

0.63

72.01

0.58

74.2

850

0.63

77.55

0.57

84.4

900

0.62

83.91

0.53

89.7

950

0.61

90.43

0.51

93.9

1000

0.60

96.60

0.50

97.8

1050

0.59

103.02

0.50

102.4

1100

0.58

109.59

0.50

107.3

1150

0.58

116.16

0.50

112.4

1200

0.57

123.11

0.51

117.5

1250

0.56

129.79

0.51

122.1

1300

0.55

136.62

0.52

126.6

1350

0.54

143.51

0.52

131.3

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

1: 111.86

195.73

1.5GHz

2: 81.961

152.6

1.8GHz

3: 71.508

126.55

0.629pF
2.0GHz

4: 49.402

101.55

2.2GHz

START:

1.40GHz

STOP:

2.65GHz

SR01784

Figure 50.

Typical S

of PCS LO Input @ V

= 3.6V

Table 8.

Typical S-Parameter of PCS LO Input @ V

= 3.6V

FREQUENCY (MHz)

(DEG)

1400

0.82

20.14

1450

0.81

21.11

1500

0.81

21.93

1550

0.80

23.12

1600

0.79

24.11

1650

0.79

24.83

1700

0.78

26.31

1750

0.78

27.29

1800

0.77

28.94

1850

0.76

30.10

1900

0.75

31.60

1950

0.74

33.13

2000

0.73

34.39

2050

0.74

36.43

2100

0.73

39.44

2150

0.72

41.87

2200

0.71

44.83

2250

0.71

47.44

2300

0.70

50.37

2350

0.69

53.39

2400

0.67

56.89

2450

0.66

60.64

2500

0.65

64.62

2550

0.63

68.76

2600

0.62

72.84

2650

0.62

76.87

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

1: 21.586

70.879

200.25MHz

2: 10.313

20.101

500MHz

3: 21.462

7.5986

23.272pF
900MHz

4: 10.252

5.7031

1.2GHz

START:

100MHz

STOP:

1.35GHz

SR01785

Figure 51.

Typical S

of Cellular LO Input @ V

= 3.6V

Table 9.

Typical S-Parameter of Cellular LO Input @ V

= 3.6V

FREQUENCY (MHz)

(DEG)

100

0.80

36.97

150

0.77

52.45

200

0.76

67.08

250

0.75

80.65

300

0.74

93.04

350

0.73

014.39

400

0.73

115.23

450

0.71

125.18

500

0.70

134.67

550

0.68

143.76

600

0.64

152.26

650

0.60

159.64

700

0.55

165.56

750

0.49

168.90

800

0.44

168.40

850

0.41

164.76

900

0.41

158.85

950

0.45

155.08

1000

0.50

154.81

1050

0.55

156.51

1100

0.60

159.60

1150

0.63

162.92

1200

0.66

166.51

1250

0.69

169.86

1300

0.71

173.54

1350

0.72

176.65

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

DEMONSTRATION BOARD DIAGRAM

CDMA

IFB

GND

CDMA

/FM

CEL

LO IN

GND

PCS LO

LO BUFFER

GND

LO OUT

FM IF

FM IFB

GND

PCS RF

PCS RFB

PCS/CEL

SELECT

POWER

CEL

GND

VCC

10nF

L14

4.7nH

C28

33 pF

C27

1.5pF

C29

1.5pF

C26

33pF

L12

4.7nH

8.2pF

6.8pF

470nH

390nH

1.2K

12pF

VCC FM IF

R10

000

SMA

PCS

PCS/CEL

8.2nH

C10

100pF

12pF

SMA

CEL

RF IN

J12

VCC

C19

10uF

LO BUFFER

OFF

POWER ON/OFF

POWER DOWN

POWER UP

CDMA

MIXER

PCS/CEL

CDMA/FM

MODE

CDMA

Direct PCS LO

PCS Doubler LO

PCS LO

OUT

CEL

OUT

CEL

BALUN

LO AMP

PCS MIXER

4.7pF

4.3pF

SA9502

C20

100nF

C13

100pF

CDMA/FM

LO BUF

SMA

LO OUT

C17

2.2pF

SELECT

VCC FM IF

SMA

CEL

C15

3.3pF

3.9nH

C16

100pF

RF IN

IF OUT

SELECT

ON/OFF

180nH

680

C12

8.2pF

680

180nH

8.2pF

C31

8.2pF

C30

8.2pF

SMA

L15

TC8-1

0.7dB

CDMA

VCC CDMA

SR01761

SELECT

ENABLE

PCS LO

BUFFER

J10

SMA

PCS LO

C18

2.2pF

LEVEL

Philips Semiconductors

Product specification

SA9502

Dual-band, CDMA/AMPS downconverter IC

1999 Mar 19

Definitions

Short-form specification -- The data in a short-form specification is extracted from a full data sheet with the same type number and title. For
detailed information see the relevant data sheet or data handbook.

Limiting values definition -- Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one
or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or
at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended
periods may affect device reliability.

Application information -- Applications that are described herein for any of these products are for illustrative purposes only. Philips
Semiconductors make no representation or warranty that such applications will be suitable for the specified use without further testing or
modification.

Disclaimers

Life support -- These products are not designed for use in life support appliances, devices or systems where malfunction of these products can
reasonably be expected to result in personal injury. Philips Semiconductors customers using or selling these products for use in such applications
do so at their own risk and agree to fully indemnify Philips Semiconductors for any damages resulting from such application.

Right to make changes -- Philips Semiconductors reserves the right to make changes, without notice, in the products, including circuits, standard
cells, and/or software, described or contained herein in order to improve design and/or performance. Philips Semiconductors assumes no
responsibility or liability for the use of any of these products, conveys no license or title under any patent, copyright, or mask work right to these
products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless
otherwise specified.

Philips Semiconductors
811 East Arques Avenue
P.O. Box 3409
Sunnyvale, California 940883409
Telephone 800-234-7381

Date of release: 0399

Document order number:

9397 750 05472

Philips

Semiconductors

Data sheet
status

Objective
specification

Preliminary
specification

Product
specification

Product
status

Development

Qualification

Production

Definition

[1]

This data sheet contains the design target or goal specifications for product development.
Specification may change in any manner without notice.

This data sheet contains preliminary data, and supplementary data will be published at a later date.
Philips Semiconductors reserves the right to make chages at any time without notice in order to
improve design and supply the best possible product.

This data sheet contains final specifications. Philips Semiconductors reserves the right to make
changes at any time without notice in order to improve design and supply the best possible product.

Data sheet status

[1]

Please consult the most recently issued datasheet before initiating or completing a design.

Part Number SA9502