HP HPMX-2007-TR1 Vector modulator/mixer Datasheet

Vector Modulator/Mixer
Technical Data
HPMX-2007
Features
Package Pin Configuration
i
1
16
q
i
2
15
q
LOmod
3
14
mod
RFOUT
4
13
mod
RFOUT
5
12
VCC
IF
6
11
VEE
IF
7
10
LOmix
ENABLE
8
9
LOmix/M IXOFF
HPMX
2007
YYWW
• 5 MHz to 4 GHz Overall
Operating Frequency Range
• 40-400 MHz LOmod range
• 2.7 - 5.5 V Operation (3 V,
25 mA)
• Differential High Impedance
i, q Inputs
• On-Chip Linear RC Phase
Shifter
• -23 dBm Modulator S.E.
Output Power into 50 Ω at
150 MHz
• -15 dBm Linear (-11 dBm
Saturated) Mixer Output
Power into 50 Ω at 1900 MHz
• Mixer Can Be Used for
Up/Down Conversion or
Disabled (3 V, 10 mA)
• Standby Mode (<1 µA)
• JEDEC Standard SSOP-16
Surface Mount Package
Plastic SSOP-16
Applications
• NADC, PDC, GSM Handsets
and Base Stations
• PCS Handsets and Base
Stations
• DLMR Handsets
• CDPD Radios
• ISM Band Wireless Links
LOmix
LOmix
i
LOmod
φ
RFOUT
Σ
RFOUT
q
q
5965-7239E
MOD MOD
General Description
The HPMX-2007 vector
modulator/mixer IC is designed to
meet the needs of cellular and
PCS telephone applications.
Functional Block Diagram
i
HP
200 MX
YY 7
WW
IF
IF
7-74
The heart of the IC is a vector (or
quadrature) modulator followed
by a Gilbert cell mixer. The
modulator and mixer can be used
together, drawing only 25 mA
from a 3.0 volt supply. The mixer
can be disabled by connecting
either LOmix or LOmix to VCC,
allowing operation of the
modulator alone and reducing
current drain to only 10 mA.
The i and q signal inputs are
balanced to insure high common
mode noise rejection.
The output of the mixer is a
differential pair of open collectors.
One collector can be connected
to VCC and the other matched to
50 Ω using a shunt L, series C
network. Alternatively, the output
can be matched to 50 Ω through a
4:1 balun.
The HPMX-2007 is manufactured
using Hewlett-Packard’s 30 GHz
ISOSAT-II process which
combines stepper lithography,
self alignment, ion implantation
techniques and gold metallization
to produce state-of-the-art RFICs.
The SSOP-16 package insures that
the IC occupies a minimal amount
of printed circuit board space.
HPMX-2007 Absolute Maximum Ratings[1]
Recommended Operating Range of VCC = 2.7 to 5.5 V, TA = - 40 to +85°C.
Parameter
VCC Supply Voltage
Power Dissipation[2,3]
RF Input Power
Junction Temperature
Storage Temperature
Min.
Max.
8V
400 mW
+15 dBm
+150°C
+150°C
-65°C
Thermal Resistance:[2]
θjc = 150°C/W
Notes:
1. Operation of this device in excess of
any of these parameters may cause
permanent damage.
2. Tcase = 25°C.
3. Derate at 7 mW/°C for Tcase > 90°C.
Standard Test Conditions
Unless otherwise stated, all test data was taken on packaged parts under the following conditions:
VCC = +3.0 VDC, Zout = 50 Ω, ambient temperature TA = 25°C
LOmod input: 149.67 MHz, 400 mVp-p, single ended
LOmix input: 1750.33 MHz, -10 dBm, single ended, 50 Ω
Single sideband tests:
i, q input: 10 kHz, 600 mVp-p differential with VCC/2 = 1.5 V offset.
See Figure 25 for test setup schematic diagram.
HPMX-2007 Key Guaranteed Electrical Specifications
Standard test conditions apply unless otherwise noted.
Symbol
Pout
Id
Parameters and Test Conditions
SSB Output Power
Unwanted Sideband Output Level in SSB Mode
LOmix + LOmod Leakage Relative to SSB
Output Power
Device Current (ENABLE Open)
Device Current, Disabled Mode (ENABLE = VCC)
7-75
Min.
-17.5
Typ.
-15
-40
-35
Max.
-30
-27
Units
dBm
dBc
dBc
25
5
30
25
mA
µA
HPMX-2007 Summary Characterization Information
Standard test conditions apply unless otherwise noted.
Modulator-Only Mode
DC Current Drain
i, q Input 3 dB Bandwidth
LOmod Input Frequency Range (for Sideband Suppression > 30 dBc)
SSB Output Current (Open Collectors). See Figure 26.
SSB LOmod Suppression @ 150 MHz
DSB 3rd Order IM Products @ 150 MHz
Output Noise Floor
Typ
10
>90
40-400
2
-35
-45
-160
Units
mA
MHz
MHz
mA pk-pk diff.
dBc
dBc
dBm/Hz
Typ
25
Units
mA
400
12
-15
-22
-153
-22
MHz
mA pk-pk diff.
dBm
dBc
dBm/Hz
dBc
Modulator + Mixer Performance (Output at 1900 MHz)
Total DC Current Drain (Mixer Cannot Be Used Without Also
Turning On the Modulator)
Mixer IF Input 3 dB Bandwidth
Differential Output Current (Open Collectors). See Figure 26.
Linear Output Power. See Figure 25.
IM3 Output Power. See Figure 19.
Output Noise Floor
LOmix Leakage to RF Output
HPMX-2007 Pin Description Table
No.
1
Mnemonic
i
2
i
3
LOmod
4
RF
5
RF
6
IF
7
IF
8
ENABLE
Description
Balanced modulation input
Z = 75 kΩ || 0.5 pF
Typical Signal
600 mV pk-pk differential
average value of VCC/2
Modulator LO input
Z = 5 kΩ || 0.5 pF
40-400 MHz, -10 dBm from
50 Ω source
Balanced mixer RF output open collectors 5-4000 MHz, 12 mA pk-pk differential,
Z = current src. || 3 kΩ || 0.7 pF
with network shown in Figure 25
Balanced mixer input
Z = 5 kΩ || 0.5 pF
40-400 MHz, 350 mV pk-pk diff.
9
LOmix/mixoff
10
LO1
11
VEE
Chip enable input
Balanced mixer LO input and mixer
enable line
Z = 1 kΩ || 0.6 pF
Chip substrate connection
3 V CMOS logic compatible
12
VCC
Power supply connection
+2.7 - 5.5 V
13
MOD
14
MOD
Balanced modulator RF output
open collectors
Z = current src. || 35 kΩ || 0.7 pF
40-400 MHz, 2 mA pk-pk differential
with network shown in Figure 25
15
q
Balanced modulation input
600 mV pk-pk differential
16
q
Z = 75 kΩ || 0.5 pF
average value of VCC/2
-10 dBm from 50 Ω source network
shown in Figure 25
0 V (DC and AC ground)
Note: Impedances shown are AC equivalents at each pin, relative to ground. See Figure 26.
7-76
Table 1. Typical Output Spurs.
All values in dBc relative to output at 1900 MHz. fLOmix = 1750.33 MHz, fLOmod = 149.67 MHz, Vi = Vq = 1.65 V,
Vi = Vq = 1.35 V, fspur = m*fLOmix+n*fLOmod
m↓ n→
0
1
2
3
4
5
6
-6
-38.8
-51.9
-26.6
-37.8
-45.7
-65.0
-65.5
-5
-53.4
-37.3
-32.8
-32.7
-47.1
-67.5
-82.2
-4
-47.7
-37.7
-23.7
-57.4
-45.3
-56.1
-65.9
-3
-60.1
-23.9
-36.3
-28.3
-47.0
-61.7
-60.7
-1
-72.3
0
-34.5
-21.2
-51.1
-52.0
-62.7
0
-21.4
-19.5
-27.5
-43.3
-43.5
-57.5
1
-72.2
0
-21.3
-23.8
-40.4
-54.8
-66.2
2
-46.7
-22.1
-26.3
-38.7
-49.7
-61.6
-64.9
30
ICC (mA) MODULATOR ONLY @ 25 °C
30
-2
-46.7
-23.6
-16.5
-25.9
-39.4
-57.6
-57.4
VCC = 5 V
25
27
ICC (mA)
ICC (mA)
MODULATOR + MIXER
20
15
10
24
VCC = 3 V
21
18
MODULATOR ONLY
5
-40
-15
35
10
60
15
-40
85
TEMPERATURE (°C)
60
85
6
-38.8
-35.1
-40.6
-48.8
-57.2
-63.7
-86.3
12
11
10
9
8
7
6
2
3
4
5
6
Figure 3. Modulator Only Mode ICC
vs. VCC at 25°C.
0
0
85 °C
25 °C
-10
OUTPUT LEVEL (dBm)
0 °C
-40 °C
20
15
10
5
3
4
5
VCC (VOLTS)
Figure 4. Modulator + Mixer ICC vs.
VCC and Temperature.
6
OUTPUT LEVEL (dBm)
-10
25
2
5
-53.3
-28.7
-48.8
-41.2
-57.8
-64.7
-83.1
VCC (VOLTS)
Figure 2. Modulator + Mixer ICC vs.
Temperature and VCC.
30
ICC (mA)
35
10
4
-47.6
-41.7
-29.5
-54.3
-49.8
-59.9
-72.0
TEMPERATURE (°C)
Figure 1. ICC vs. Temperature.
0
-15
3
-60.1
-17.7
-36.8
-45.9
-54.7
-65.4
-77.1
SIDEBAND OUTPUT
-20
-30
-40
-50
CARRIER
-60
SUPPRESSED SIDEBAND
-20
-30
-40
-50
-70
-80
-80
-40
3
4
5
VCC (VOLTS)
Figure 5. Modulator Only SSB
Performance vs. VCC.
7-77
6
CARRIER
-60
-70
2
SIDEBAND OUTPUT
SUPPRESSED SIDEBAND
-15
10
35
60
TEMPERATURE (°C)
Figure 6. Modulator Only SSB
Performance vs. Temperature.
85
OUTPUT LEVEL (dBm)
-30
-40
-50
-60
IM3 OUTPUT
-70
-80
-10
SIDEBAND OUTPUT
-20
-30
-40
-50
CARRIER
-60
-70
-90
0
100
200
300
500
400
-80
600
SUPPRESSED SIDEBAND
0
i,q AMPLITUDE (Vpk)
-10
SIDEBAND OUTPUT
OUTPUT LEVEL (dBm)
OUTPUT LEVEL (dBm)
0
-10
-30
-40
CARRIER
-60
SUPPRESSED
SIDEBAND
-70
-80
-25
-15
OUTPUT LEVEL (dBm)
OUTPUT LEVEL (dBm)
-20
-30
-40
SUPPRESSED SIDEBAND
CARRIER
200
1
1.5
2
-60
-80
-120
149.615
2.5
149.67
149.725
FREQUENCY (MHz)
Figure 12. Modulator Only SSB
Output Spectrum at 150 MHz.
0
SIDEBAND OUTPUT
-10 VCC = 5 V
SIDEBAND OUTPUT
-20
-30
-40
-60
-25
800
-40
LOmix + LOmod LEAK
-20
VCC = 3 V
-30
-40
LOmix + LOmod LEAK
-50
-60
SUPPRESSED SIDEBAND
6
600
400
-100
SUPPRESSED SIDEBAND
-50
LOmix + LOmod LEAK
Figure 13. Modulator + Mixer SSB
Output Levels vs. VCC.
0
-20
Figure 11. Modulator Only SSB
Performance vs. i,q Offset Level
(Each Pin, Relative to Ground).
SIDEBAND OUTPUT
VCC (VOLTS)
SUPPRESSED SIDEBAND
i,q OFFSET LEVEL (VOLTS)
-10
5
-70
Figure 9. Modulator Only SSB Output
Power, Carrier and Sideband
Suppression vs. LOmod Frequency.
-60
-10
4
CARRIER
-60
LOmod FREQUENCY (MHz)
SIDEBAND OUTPUT
-50
0
3
-50
-90
600
-40
0
2
500
400
-30
-80
0.5
5
Figure 10. Modulator Only SSB
Performance vs. LOmod Input Level.
-60
300
-70
-5
-40
0
-20
LOmod INPUT POWER (dBm)
-50
200
100
Figure 8. Modulator Only SSB Mode
Performance vs. i,q Input Amplitude
(Each Pin, Relative to Ground).
0
-50
-30
i,q AMPLITUDE (Vpk)
Figure 7. Modulator Only DSB Output
Power Level and IM3 Level vs. i,q
Input Amplitude (Each Pin, Relative
to Ground).
-20
SIDEBAND OUTPUT
-20
-80
OUTPUT LEVEL (dBm)
-100
0
-10
OUTPUT LEVEL (dBm)
OUTPUT LEVEL (dBm)
DSB OUTPUT (EACH SIDEBAND)
-20
0
OUTPUT LEVEL (dBm)
0
-10
-20
-15
-10
-5
0
5
LOmix POWER INPUT (dBm)
Figure 14. Modulator + Mixer SSB
Output Levels vs. LOmix Power Input.
7-78
-70
-40
SUPPRESSED
SIDEBAND
-15
10
35
60
85
TEMPERATURE (°C)
Figure 15. Modulator + Mixer SSB
Output Levels vs. Temperature and VCC.
0
-10
OUTPUT LEVEL (dBm)
SIDEBAND OUTPUT
-20
-30
-40
LOmix + LOmod LEAK
-50
-20
SIDEBAND OUTPUT
OUTPUT LEVEL (dBm)
-10
OUTPUT LEVEL (dBm)
0
0
-20
-30
LOmix + LOmod LEAK
-40
-60
-80
-100
-50
SUPPRESSED SIDEBAND
-40
SUPPRESSED SIDEBAND
-60
-24 -20
-16
-12
-8
0
-4
-60
0.5
4
LOmod POWER (dBm)
SIDEBAND OUTPUT
-30
IM3
-40
-50
-60
-70
-20
OUTPUT LEVEL (dBm)
-10
OUTPUT LEVEL (dBm)
-20
-30
LOmix + LOmod LEAK
-40
-40
-60
-80
-100
-50
-80
SUPPRESSED SIDEBAND
0
0.1
0.2
0.3
0.4
0.5
-60
0.6
0
0.1
0.2
0.3
0.4
-120
1.4999
0.6
0.5
Figure 19. Modulator + Mixer DSB
Performance vs. i,q Amplitude (Each
Pin, Referenced to Ground).
Figure 20. Modulator + Mixer SSB
Performance vs. i,q Input Amplitude
(Each Pin, Referenced to Ground).
0
-20
-20
-20
OUTPUT LEVEL (dBm)
0
-60
-80
-100
-120
1.899945
-40
-60
-80
1.900055
FREQUENCY (GHz)
Figure 22. Modulator + Mixer SSB
Output Spectrum at 1900 MHz.
-120
2.499945
-40
-60
-80
-100
-100
1.9
1.5001
Figure 21. Modulator + Mixer SSB
Output Spectrum at 1500 MHz.
0
-40
1.5000
FREQUENCY (GHz)
i,q AMPLITUDE (Vpk)
i,q AMPLITUDE (Vpk)
OUTPUT LEVEL (dBm)
OUTPUT LEVEL (dBm)
0
DSB OUTPUT (EACH SIDEBAND)
-20
900.055
Figure 18. Modulator + Mixer SSB
Output Spectrum at 900 MHz.
0
-10
900
FREQUENCY (MHz)
Figure 17. Modulator + Mixer SSB
Performance vs. i,q Offset Level
(Each Pin, Referenced to Ground).
0
OUTPUT LEVEL (dBm)
-120
899.945
2.5
2
i,q OFFSET LEVEL (V)
Figure 16. Modulator + Mixer SSB
Output Levels vs. LOmod Power Input.
-90
1.5
1
2.5
2.500055
FREQUENCY (GHz)
Figure 23. Modulator + Mixer SSB
Output Spectrum at 2500 MHz.
7-79
-120
4.000000
4.000000
4.000000
FREQUENCY (GHz)
Figure 24. Modulator + Mixer SSB
Output Spectrum at 4000 MHz.
1K
1K
i
i INPUT
250
q
q INPUT
2200 pF
2200 pF
i INPUT
i
250
q INPUT
q
1K
1K
500
0.01 µF
LOmod INPUT
LOmod
mod
RF OUT
mod
RF OUT
VCC
R9/R22
L1
RF OUTPUT
C9
L2
VCC
0.01 µF
R9/R22
R2
mod OUT
C16
L3
VCC
0.01 µF
VCC = 3 V
0.01 µF
100 pF
IF
100 pF
VEE
C6
R19
IF
LOmix
ENABLE
LOmix
1000 pF
ENABLE INPUT
LOmix INPUT
1K
220 K
VCC
1000 pF
100
100 nH
MIXER OFF
Figure 25. Test Board Schematic Diagram. Connecting the Mixer Off Line to +3 V Turns Off the Mixer. Leave It Open to
Allow Mixer to Operate. Component Values that Change with Frequency Are Shown in Table 2.
Table 2. Test Board Component Values that Change with Operating Frequency.
Refer to Figure 25.
fLOmix+fLOmod
MHz
900
1500
1900
2500
mod. only
fLOmix
MHz
750.33
1350.33
1750.33
2350.33
-
fLOmod
MHz
149.67
149.67
149.67
149.67
149.67
R9/R22
Ω
300
L3
nH
100
100
100
100
0
7-80
L1
nH
100
100
100
100
-
R19
Ω
430
300
430
430
-
C6
pF
3.9
3.9
3.9
3.9
-
C16
nF
10
R2
Ω
200
120
120
75
-
L2
nH
12
5.6
3.3
-
C9
pF
3.3
1.8
1.2
-
MODULATOR OUTPUT OPEN COLLECTOR EQUIVALENT CIRCUIT
i (t) = 0.0015 ± 0.0005 sin ω t
PINS 13, 14
PINS 13, 14
IC = 1.5 mA
SWING ± 0.5 mA
35,000 Ω
0.7 pF
VB = 2.1 V
MIXER OUTPUT OPEN COLLECTOR EQUIVALENT CIRCUIT
i (t) = 0.0045 ± 0.003 sin ω t
PINS 4, 5
PINS 4, 5
IC = 4.5 mA
SWING ± 3 mA
VB = 2.6 V
i, q INPUT AC
EQUIVALENT CIRCUIT
PINS 1, 2,
15, 16
0.5 pF
0.7 pF
MIXER IF/MODULATOR LO
INPUT AC EQUIVALENT CIRCUIT
PINS 3, 6, 7
75,000 Ω
0.5 pF
3,000 Ω
MIXER LO INPUT AC
EQUIVALENT CIRCUIT
PINS 9, 10
5,000 Ω
0.6 pF
1,000 Ω
Figure 26. Equivalent Circuits for HPMX-2007 Inputs/Outputs.
Part Number Ordering Information
Part Number
HPMX-2007-BLK
HPMX-2007-TR1
Package Dimensions
JEDEC Standard SSOP-16 Package
4.445 (0.175) REF.
HPMX
2007
YYWW
SYMBOL
A
A1
b
C
D
E
e
E1
h
L
θ
E1
E
DIMENSIONS
MIN.
MAX.
1.372 (0.054)
1.575 (0.062)
0.127 (0.005)
0.254 (0.010)
0.203 (0.008)
0.305 (0.012)
0.178 (0.007)
0.254 (0.010)
4.801 (0.189)
5.004 (0.197)
5.867 (0.231)
6.121 (0.241)
0.635 BSC (0.025)
3.835 (0.151)
3.988 (0.157)
0.305 (0.012)
0.457 (0.018)
0.533 (0.021)
0.787 (0.031)
0
8
e TYP.
D
h x 45°
–°
A
b TYP.
L
C
A1
DIMENSIONS IN MILLIMTERS AND (INCHES).
7-81
No. of
Devices
25
1000
Container
Tape
Tape and Reel