DATA SHEET
BIPOLAR ANALOG INTEGRATED CIRCUIT
µ
PC1694GR
GENERAL PURPOSE HIGH FREQUENCY WIDEBAND IC
FOR FREQUENCY DOWN-CONVERTER
DESCRIPTION
The
µ
PC1694GR is Silicon monolithic IC for down-converter that is capable of operating up to 1 GHz.
This IC consists of double balanced mixer (DBM), local oscillator and IF amplifier. Furthermore, combination with
the
µ
PC1663G (high-speed video amp) enables it to be applied to a FM demodulation circuit such as DBS tuner.
The package is 14-pin SOP suitable for surface mounting.
FEATURES
• Satisfactory 1% cross-modulation distortion characteristics: CM = 103 dB
µ
@ f
des
= 200 MHz
• Wide band operation: f
≤
1 GHz
• Easy to connect with varactor diode due to balanced amplifier oscillator
• Single-end push-pull IF amplifier suppresses fluctuation in output impedance
• Supply voltage: 5 V
• Packaged in 14-pin SOP suitable for smaller mounting area
APPLICATIONS
• Tuners for TV and VCR
ORDERING INFORMATION
Part Number
Package
14-pin plastic SOP (225 mil)
Supplying Form
Embossed tape 16 mm wide.
Pin 1 indicates pull-out direction of tape.
µ
PC1694GR-E1
Remark
To order evaluation samples, please contact your local NEC office.
(Part number for sample order:
µ
PC1694GR)
Caution Electro-static sensitive devices
The information in this document is subject to change without notice. Before using this document, please
confirm that this is the latest version.
Not all devices/types available in every country. Please check with local NEC representative for
availability and additional information.
Document No. P12965EJ3V0DS00 (3rd edition)
Date Published October 1999 N CP(K)
Printed in Japan
The mark
shows major revised points.
©
1997, 1999
µ
PC1694GR
INTERNAL BLOCK DIAGRAM
OSC Collector
OSC Base
(Coupling)
(Bypass)
OSC Base
NC
(Feed Back)
V
CC
7
MIX. Out1
NC
1
OSC Buff.
OSC
IF Pre Amp.
MIX.
IF Main Amp.
8
IF Out
(75
Ω
Const.)
GND
RF In2
(Bypass)
NC
RF In1
NC
14
MIX. Out2
PIN CONFIGURATION
(Top View)
MIX output 1
GND (Non Connection)
OSC base (bypass)
OSC base (feedback)
OSC collector (coupling)
(MIX/IF Amp. switch)
6. GND (Non Connection)
7. V
CC
8. IF output (75
Ω)
9. GND
10. RF input 2 (bypass)
11. GND (Non Connection)
12. RF input 1
13. GND (Non Connection)
14. MIX output 2
1.
2.
3.
4.
5.
1
2
3
4
5
6
7
14
13
12
11
10
9
8
ABSOLUTE MAXIMUM RATINGS (T
A
= +25°C)
Parameter
Supply Voltage
Power Dissipation
Operating Ambient Temperature
Storage Temperature
Symbol
V
CC
P
D
T
A
T
stg
T
A
= +85°C
Note
Conditions
Rating
6.0
325
–40 to +85
–65 to +150
Unit
V
mW
°C
°C
Note
Mounted on 50
×
50
×
1.6-mm epoxy glass PWB, with copper patterning on both sides.
2
Data Sheet P12965EJ3V0DS00
µ
PC1694GR
RECOMMENDED OPERATING RANGE
Parameter
Supply Voltage
Operating Ambient Temperature
Symbol
V
CC
T
A
MIN.
4.5
–40
TYP.
5.0
+25
MAX.
5.5
+85
Unit
V
°C
ELECTRICAL CHARACTERISTICS (T
A
= +25°C, V
CC
= 5 V)
Parameter
Circuit Current 1
Mixer Output Voltage
Conversion Gain 1
Symbol
I
CC1
V
MIX
CG1
No input signal
1-14 pin voltage, No input signal
f
RF
= 55 to 470 MHz, f
IF
= 50 MHz
P
RF
= –40 dBm
RF Input Terminal: Non Tuned
f
RF
= 470 to 890 MHz, f
IF
= 50 MHz
P
RF
= –40 dBm
RF Input Terminal: Non Tuned
f
RF
= 55 to 470 MHz, f
IF
= 50 MHz
RF Input Terminal: Non Tuned
f
RF
= 470 to 890 MHz, f
IF
= 50 MHz
RF Input Terminal: Non Tuned
Test Conditions
Note 1
Note 1
MIN.
32
–30
14
Note 2
14
Note 3
—
Note 2
—
Note 3
+8
+8
32
17
—
+10
+10
40
21
12.0
—
—
48
24
15.0
dBm
dBm
mA
dB
dB
13.5
16.0
dB
12.5
15.0
dB
18
21
dB
TYP.
40
0
18
MAX.
48
+30
21
Unit
mA
mV
dB
Conversion Gain 2
CG2
Noise Figure 1
NF1
Noise Figure 2
NF2
Output Power 1
Output Power 2
Circuit Current 2 (U/IF)
Power Gain (U/IF)
Noise Figure 3 (U/IF)
P
O(sat)
1
P
O(sat)
2
I
CC2
G
P
NF3
f
RF
= 470 MHz, f
IF
= 50 MHz, P
RF
= 0 dBm
Note 2
f
RF
= 890 MHz, f
IF
= 50 MHz, P
RF
= 0 dBm
Note 3
No input signal
f
in
= 50 MHz, P
in
= –40 dBm
f
in
= 50 MHz
Note 1
Note 2
Note 2
Notes 1.
By test circuit 1
2.
By test circuit 2
3.
By test circuit 3
Data Sheet P12965EJ3V0DS00
3
µ
PC1694GR
STANDARD CHARACTERISTICS (FOR REFERENCE) (T
A
= +25°C, V
CC
= 5 V)
Reference
Value
24.5
Parameter
Conversion Gain 3
Symbol
CG3
Test Conditions
f
RF
= 55 MHz, f
IF
= 50 MHz, P
RF
= –40 dBm
RF Input Terminal: Tuned
Note 1
f
RF
= 200 MHz, f
IF
= 50 MHz, P
RF
= –40 dBm
RF Input Terminal: Tuned
Note 1
f
RF
= 470 MHz, f
IF
= 50 MHz, P
RF
= –40 dBm
RF Input Terminal: Tuned
Note 1
f
RF
= 890 MHz, f
IF
= 50 MHz, P
RF
= –40 dBm
RF Input Terminal: Tuned
Note 2
f
RF
= 55 to 470 MHz, f
IF
= 50 MHz
f
RF
= 470 to 890 MHz, f
IF
= 50 MHz
f
RF
= 50 MHz
V
CC
±
10%, f
OSC
= 100 to 520 MHz
V
CC
±
10%, f
OSC
= 520 to 940 MHz
f
OSC
= 100 to 520 MHz
f
OSC
= 520 to 940 MHz
Note 1, 3
Note 2, 3
Note 1, 4
Unit
dB
Conversion Gain 4
CG4
24.5
dB
Conversion Gain 5
CG5
23.0
dB
Conversion Gain 6
CG6
20.0
dB
dB
µ
dB
µ
dB
µ
1% Cross-modulation Distortion 1
1% Cross-modulation Distortion 2
1% Cross-modulation Distortion 3
(U/IF)
Oscillation Frequency Stability 1
Oscillation Frequency Stability 2
Oscillation Stop (Start) Voltage 1
Oscillation Stop (Start) Voltage 2
CM1
CM2
CM3
103
100
103
±100
±200
2.5
3.0
f
stb
1
f
stb
2
V
OSC
1
V
OSC
2
Note 1
Note 2
Note 1
Note 2
kHz
V
Notes 1.
By test circuit 2
2.
By test circuit 3
3.
f
undes
= f
RF
±
12 MHz, P
RF
= –31 dBm, f
IF
= 50 MHz, AM: 100 kHz, 30%Mod., S/I Ratio = 46 dBc, Output 75
Ω
Open
4.
f
in
= 50 MHz, f
undes
= 62 MHz, P
in
= –31 dBm, AM: 100 kHz, 30% Mod., S/I Ratio = 46 dBc, Output 75
Ω
Open
4
Data Sheet P12965EJ3V0DS00
µ
PC1694GR
TYPICAL CHARACTERISTICS (T
A
= +25°C)
CIRCUIT CURRNT vs. SUPPLY VOLTAGE
60
No Input Signal
50
Circuit Current Icc (mA)
40
30
20
10
0
1
2
3
4
5
6
Supply Voltage V
CC
(V)
NOISE FIGURE AND CONVERSION GAIN vs. INPUT FREQUENCY
30
V
CC
= 5 V
f
IF
= 50 MHz
RF Input Terminal: No Tuned
Test Circuit 2, 3
P
RF
= –40 dBm
20
Conversion Gain CG (dB)
Noise Figure NF (dB)
25
18
20
16
15
14
10
12
5
10
0
500
Input Frequency f
RF
(MHz)
1000
1200
Data Sheet P12965EJ3V0DS00
5