NBY3143 ঱ሣቶࣞĂ761NI{ᒗ2111NI{ ࿟ܤຫ0ሆܤຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ ``````````````````````````````````` গၤ

19-4965; Rev 0; 9/09
ৰ‫ۇ‬
భᄋ৙ຶ
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
``````````````````````````````````` ᄂቶ
NBY3143঱ሣቶࣞĂᇄᏎ࿟‫ܤ‬ຫ૞ሆ‫ܤ‬ຫ૘ຫ໭Ᏼ761NI{
ᒗ2111NI{ࡼSGຫࣤ௥ᎌ,44eCn JJQ4Ă8eC OGਜ਼8eC‫ܤ‬ຫ
Ⴜ੒Ljᑽߒࣶᒬ૥ᐶ።፿ă૘ຫ໭MPຫൈपᆍᆐ761NI{
ᒗ2361NI{Ljး፿᎖঱࣡MPᓖྜྷஉ৩ăྙኊ፛୭ରྏࡼ
ࢅ࣡MPᓖྜྷ૘ຫ໭Lj༿‫ݬ‬ఠNBY313:ă
♦ 761NI{ᒗ2111NI{! SGຫൈपᆍ
NBY3143‫ݙ‬ஞ௥ᎌ߲ྻࡼሣቶࣞਜ਼ࢅᐅဉቶถLjથ௥ᎌ
ऻ‫ޟ‬঱ࡼ໭ୈૹ߅ࣞăক໭ୈ਺ᎌጙৈၷຳੰᇄᏎ૘ຫ
໭ਖ਼ĂጙৈၷၒྜྷMPኡᐋఎਈਜ਼ጙৈMPદߡ໭ăຢดૹ
߅ࡼऻຳੰ‫ܤ‬ኹ໭Ꮴ኏ሆ‫ܤ‬ຫࡼ࡝࣡SGၒྜྷ)૞࿟‫ܤ‬ຫࡼ
࡝࣡SGၒ߲*ጲૺ࡝࣡MPၒྜྷăNBY3143ኊገ‫߂ܪ‬1eCn
ࡼMPདࣅLj࢟Ꮞ࢟ഗۣᑺቃ᎖211nBă
♦ 8eC‫ܤ‬ຫႼ੒
NBY3143ᎧNBY314:0NBY3152 2811NI{ᒗ3311NI{૘ຫ
໭፛୭ରྏLjဧকᇹ೰ᇄᏎ࿟‫ܤ‬ຫਜ਼ሆ‫ܤ‬ຫ૘ຫ໭ऻ‫ޟ‬း
੝ೝৈຫࣤ‫ݧ‬፿ሤᄴQDC‫ݚ‬௜ࡼ።፿ă
♦ ૹ߅SGਜ਼MPऻຳੰ‫ܤ‬ኹ໭
NBY3143‫ݧ‬፿ஜ࠯ࡼ31፛୭ۡቯRGOॖᓤ)6nn y 6nn*Lj
ࡒᎌൡ੆๤ăᏴ.51°Dᒗ,96°D౫ᐱ଀ᆨࣞपᆍดLjభۣᑺ
࢟໮ቶถă
``````````````````````````````````` ።፿
♦ ,35eCnၒྜྷ2eCኹჁ࢛
♦ 8eCᐅဉᇹၫ
♦ ૹ߅MPદߡ໭
♦ .4eCnᒗ,4eCn୷ࢅࡼMPདࣅ
♦ ดᒙTQEU! MPఎਈLjMP2ᒗMP3৆ಭࣞᆐ5:eCLj
ఎਈဟମᆐ61ot!
♦ ፛୭ରྏ᎖NBY314:0NBY3152! 2811NI{ᒗ
3311NI{૘ຫ໭
♦ ᅪ‫࢟ݝ‬ഗ࿸ᒙ࢟ᔜᏤ኏ᑓᒦኡᐋ૘ຫ໭ࡼࢅ৖੒0
ࢅቶถ৔ᔫෝါ
``````````````````````````````` ࢾ৪ቧᇦ
ᆈ݆ਜ਼ৼࢾ౑ࡒᇄሣ୻ྜྷ
࿸۸
TEMP RANGE
PIN-PACKAGE
MAX2032ETP+
-40°C to +85°C
20 Thin QFN-EP*
ᇄሣ‫࢐۾‬ણവ
MAX2032ETP+T
-40°C to +85°C
20 Thin QFN-EP*
XjNBYUN ૥ᐶਜ਼໩ጓ࿸۸
, ‫ܭ‬ာᇄ໺)Qc*0९੝SpIT‫ܪ‬ᓰࡼॖᓤă
U! >! ௳ࡒ۞ᓤă
*FQ! >! ൡ੆๤ă
``````````````````````` ፛୭๼ᒙ0৖ถౖᅄ
TOP VIEW
+
VCC
1
RF
2
TAP
3
GND
4
GND
ၫᔊᎧ౫ຫᄰቧᇹᄻ
PART
GND
૥ᐶ
♦ ,44eCnၒྜྷJQ4!
IF-
ૹ߅ၫᔊᐐ༓ᆀ൥)jEFO®*
♦ ᒇഗᒗ361NI{! JGຫൈपᆍ
IF+
HTN! 9610HTN! :11! 3Hਜ਼
3/6H! FEHF૥ᐶ
Ꮎပᑞ୻၃໭
♦ 681NI{ᒗ:11NI{! MPຫൈपᆍ
)‫ݬ‬ఠNBY313:ၫ௣ᓾ೯*!
GND
XDENB0MUFĂdenb3111®
૥ᐶ
♦ 761NI{ᒗ2361NI{! MPຫൈपᆍ
20
19
18
17
16
MAX2032
15
LO2
14
VCC
13
GND
12
GND
11
LO1
EP
6
7
8
9
10
LOBIAS
VCC
LOSEL
GND
denb3111ဵ࢟ቧ৔ጓ቏્ࡼᓖ‫ݿ‬࿜‫ܪ‬ă
jEFOဵNpupspmb-! Jod/ࡼᓖ‫ݿ‬࿜‫ܪ‬ă
XjNBYဵXjNBY൙ოࡼ࿜‫ܪ‬ă
5
VCC
GND
________________________________________________________________ Maxim Integrated Products
www.BDTIC.com/maxim
1
‫۾‬ᆪဵ፞ᆪၫ௣ᓾ೯ࡼፉᆪLjᆪᒦభถࡀᏴडፉ࿟ࡼ‫ݙ‬ᓰཀྵ૞ࡇᇙăྙኊ஠ጙ‫ݛ‬ཀྵཱྀLj༿Ᏼิࡼ࿸ଐᒦ‫ݬ‬ఠ፞ᆪᓾ೯ă
ᎌਈଥৃĂ৙ૡૺࢿ৪ቧᇦLj༿ೊ൥Nbyjn዇ᒴሾ၉ᒦቦǖ21911!963!235:!)۱ᒦਪཌ*Lj21911!263!235:!)ฉᒦਪཌ*Lj
૞षᆰNbyjnࡼᒦᆪᆀᐶǖdijob/nbyjn.jd/dpnă
NBY3143
``````````````````````````````````` গၤ
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
ABSOLUTE MAXIMUM RATINGS
VCC to GND ...........................................................-0.3V to +5.5V
RF (RF is DC shorted to GND through a balun)..................50mA
LO1, LO2 to GND ..................................................-0.3V to +0.3V
IF+, IF- to GND ...........................................-0.3V to (VCC + 0.3V)
TAP to GND ...........................................................-0.3V to +1.4V
LOSEL to GND ...........................................-0.3V to (VCC + 0.3V)
LOBIAS to GND..........................................-0.3V to (VCC + 0.3V)
RF, LO1, LO2 Input Power (Note 1) ...............................+20dBm
Continuous Power Dissipation (Note 2)....................................5W
θJA (Notes 3, 4)..............................................................+38°C/W
θJC (Notes 2, 3)..............................................................+13°C/W
Operating Temperature Range (Note 5) .....TC = -40°C to +85°C
Junction Temperature ......................................................+150°C
Storage Temperature Range .............................-65°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
Note 1: Maximum, reliable, continuous input power applied to the RF and IF port of this device is +12dBm from a 50Ω source.
Note 2: Based on junction temperature TJ = TC + (θJC x VCC x ICC). This formula can be used when the temperature of the exposed
pad is known while the device is soldered down to a PCB. See the Applications Information section for details. The junction
temperature must not exceed +150°C.
Note 3: Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a fourlayer board. For detailed information on package thermal considerations, refer to china.maxim-ic.com/thermal-tutorial.
Note 4: Junction temperature TJ = TA + (θJA x VCC x ICC). This formula can be used when the ambient temperature of the PCB is
known. The junction temperature must not exceed +150°C.
Note 5: TC is the temperature on the exposed pad of the package. TA is the ambient temperature of the device and PCB.
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
DC ELECTRICAL CHARACTERISTICS
(Typical Application Circuit, VCC = 4.75V to 5.25V, no RF signals applied, TC = -40°C to +85°C. IF+ and IF- are DC grounded through an
IF balun. Typical values are at VCC = 5V, TC = +25°C, unless otherwise noted.)
PARAMETER
SYMBOL
Supply Voltage
VCC
Supply Current
ICC
LOSEL Input Logic-Low
VIL
LOSEL Input Logic-High
VIH
CONDITIONS
MIN
TYP
MAX
4.75
5.00
5.25
V
85
100
mA
0.8
V
2
UNITS
V
RECOMMENDED AC OPERATING CONDITIONS
PARAMETER
SYMBOL
CONDITIONS
Components tuned for the 700MHz band
(Table 1), C1 = 7pF, C5 = 3.3pF (Notes 6, 7)
RF Frequency
fRF
MIN
TYP
650
MAX
UNITS
850
MHz
Components tuned for the 800MHz/900MHz
cellular band (Table 1), C1 = 82pF,
C5 = 2.0pF (Note 6)
800
1000
650
1250
MHz
LO Frequency
fLO
(Notes 6, 7)
IF Frequency
fIF
IF frequency range depends on external IF
transformer selection
0
250
MHz
(Note 6)
-3
+3
dBm
LO Drive Level
PLO
2 ________________________________________________________________________________________
www.BDTIC.com/maxim
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
(Typical Application Circuit, optimized for the 800MHz/900MHz cellular band (see Table 1), C1 = 82pF, C5 = 2pF, L1 and C4 not
used, VCC = 4.75V to 5.25V, RF and LO ports driven from 50Ω sources, PLO = -3dBm to +3dBm, PRF = 0dBm, fRF = 815MHz to
1000MHz, fLO = 960MHz to 1180MHz, fIF = 160MHz, fLO > fRF, TC = -40°C to +85°C, unless otherwise noted. Typical values are at
VCC = 5V, PRF = 0dBm, PLO = 0dBm, fRF = 910MHz, fLO = 1070MHz, fIF = 160MHz, TC = +25°C, unless otherwise noted.) (Note 8)
PARAMETER
Conversion Loss
SYMBOL
CONDITIONS
MIN
LC
Flatness over any one of three frequency
bands (fIF = 160MHz):
fRF = 827MHz to 849MHz
fRF = 869MHz to 894MHz
fRF = 880MHz to 915MHz
Conversion Loss Flatness
Conversion Loss Variation Over
Temperature
TYP
MAX
UNITS
7.0
dB
±0.18
dB
TC = +25°C to -40°C
-0.3
TC = +25°C to +85°C
0.2
24
dBm
33
dBm
dB
Input 1dB Compression Point
P1dB
(Note 9)
Input Third-Order Intercept Point
IIP3
fRF1 = 910MHz, fRF2 = 911MHz,
PRF = 0dBm/tone, fLO = 1070MHz,
PLO = 0dBm, TC = +25°C (Note 10)
Input IP3 Variation Over
Temperature
IIP3
2LO - 2RF Spurious Response at IF
2x2
65
dBc
3LO - 3RF Spurious Response at IF
3x3
75
dBc
Single sideband
7.0
dB
PBLOCKER = +8dBm
18
PBLOCKER = +12dBm
22
Noise Figure
NF
Noise Figure Under Blocking
(Note 11)
LO1-to-LO2 Isolation (Note 10)
29
TC = +25°C to -40°C
0.3
TC = +25°C to +85°C
-0.3
LO2 selected, PLO = +3dBm, TC = +25°C
42
51
LO1 selected, PLO = +3dBm, TC = +25°C
42
49
dB
dB
dB
Maximum LO Leakage at RF Port
PLO = +3dBm
-27
dBm
Maximum LO Leakage at IF Port
PLO = +3dBm
-35
dBm
LO Switching Time
50% of LOSEL to IF, settled within 2 degrees
50
ns
Minimum RF-to-IF Isolation
45
dB
RF Port Return Loss
17
dB
LO Port Return Loss
IF Port Return Loss
LO1/LO2 port selected, LO2/LO1, RF, and IF
terminated into 50Ω
28
LO1/LO2 port unselected, LO2/LO1, RF, and
IF terminated into 50Ω
30
LO driven at 0dBm, RF terminated into 50Ω
17
dB
dB
_______________________________________________________________________________________
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3
NBY3143
AC ELECTRICAL CHARACTERISTICS (800MHz/900MHz CELLULAR BAND DOWNCONVERTER OPERATION)
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
AC ELECTRICAL CHARACTERISTICS (700MHz BAND DOWNCONVERTER OPERATION)
(Typical Application Circuit, optimized for the 700MHz band (see Table 1), C1 = 7pF, C5 = 3.3pF, L1 and C4 are not used, VCC =
4.75V to 5.25V, RF and LO ports driven from 50Ω sources, PLO = -3dBm to +3dBm, PRF = 0dBm, fRF = 650MHz to 850MHz, fLO =
790MHz to 990MHz, fIF = 140MHz, fLO > fRF, TC = +25°C, unless otherwise noted. Typical values are at VCC = 5V, PRF = 0dBm,
PLO = 0dBm, fRF = 750MHz, fLO = 890MHz, fIF = 140MHz, TC = +25°C, unless otherwise noted.) (Notes 8, 10)
PARAMETER
Conversion Loss
SYMBOL
CONDITIONS
LC
Input 1dB Compression Point
P1dB
fRF = 750MHz, PRF = 0dBm, PLO = 0dBm
Input Third-Order Intercept Point
IIP3
fRF1 = 749MHz, fRF2 = 750MHz,
fLO = 890MHz, PRF = 0dBm/tone,
PLO = 0dBm
MIN
TYP
MAX
6.1
6.9
8.1
29
UNITS
dB
24
dBm
33
dBm
LO Leakage at IF Port
PLO = +3dBm
-33
dBm
LO Leakage at RF Port
PLO = +3dBm
-20
dBm
49
dB
RF-to-IF Isolation
36
2LO - 2RF Spurious Response
2x2
65
dBc
3LO - 3RF Spurious Response
3x3
75
dBc
AC ELECTRICAL CHARACTERISTICS (UPCONVERTER OPERATION)
(Typical Application Circuit, L1 = 4.7nH, C4 = 6pF, C1 = 82pF, C5 not used, VCC = 4.75V to 5.25V, RF and LO ports are driven from
50Ω sources, PLO = -3dBm to +3dBm, PIF = 0dBm, fRF = 815MHz to 1000MHz, fLO = 960MHz to 1180MHz, fIF = 160MHz, fLO > fRF,
TC = -40°C to +85°C, unless otherwise noted. Typical values are at VCC = 5V, PIF = 0dBm, PLO = 0dBm, fRF = 910MHz, fLO =
1070MHz, fIF = 160MHz, TC = +25°C, unless otherwise noted.) (Note 8)
PARAMETER
Conversion Loss
SYMBOL
CONDITIONS
MIN
LC
TYP
MAX
UNITS
7.4
dB
Flatness over any one of three frequency
bands (fIF = 160MHz):
fRF = 827MHz to 849MHz
fRF = 869MHz to 894MHz
fRF = 880MHz to 915MHz
±0.3
dB
TC = +25°C to -40°C
-0.3
TC = +25°C to +85°C
0.4
P1dB
(Note 9)
24
dBm
Input Third-Order Intercept Point
IIP3
fIF1 = 160MHz, fIF2 = 161MHz,
PIF = 0dBm/tone, fLO = 1070MHz,
PLO = 0dBm, TC = +25°C (Note 10)
31
dBm
Input IP3 Variation Over
Temperature
IIP3
Conversion Loss Flatness
Conversion Loss Variation Over
Temperature
Input 1dB Compression Point
28
TC = +25°C to -40°C
1.2
TC = +25°C to +85°C
-0.9
dB
dB
LO ± 2IF Spur
64
LO ± 3IF Spur
83
dBc
-167
dBm/Hz
Output Noise Floor
Note 6:
Note 7:
Note 8:
Note 9:
Note 10:
Note 11:
4
POUT = 0dBm (Note 11)
dBc
Operation outside this range is possible, but with degraded performance of some parameters.
Not production tested.
All limits include external component losses. Output measurements are taken at IF or RF port of the Typical Application Circuit.
Compression point characterized. It is advisable not to continuously operate the mixer RF/IF inputs above +12dBm.
Guaranteed by design.
Measured with external LO source noise filtered, so its noise floor is -174dBm/Hz. This specification reflects the effects of all
SNR degradations in the mixer, including the LO noise as defined in Application Note 2021: Specifications and Measurement
of Local Oscilator Noise in Integrated Circuit Base Station Mixers.
_______________________________________________________________________________________
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঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
Downconverter Curves
TC = +25°C
7
7
6
TC = -40°C
5
950
1000
RF FREQUENCY (MHz)
TC = +85°C, +25°C
33
35
INPUT IP3 (dBm)
950
1000
800
31
TC = -40°C
29
TC = -25°C
PRF = 0dBm/TONE
PLO = +3dBm
PLO = 0dBm
PLO = -3dBm
29
VCC = 4.75V
25
25
23
23
800
NOISE FIGURE vs. RF FREQUENCY
TC = +25°C
1000
NOISE FIGURE vs. RF FREQUENCY
9
NOISE FIGURE (dB)
7
1000
NOISE FIGURE vs. RF FREQUENCY
8
7
PLO = -3dBm, 0dBm, +3dBm
10
9
TC = -40°C
8
7
VCC = 4.75V, 5.0V, 5.25V
6
6
6
TC = -25°C
5
5
5
850
850
900
950
RF FREQUENCY (MHz)
TC = +85°C
8
800
800
MAX2032 toc08
9
850
900
950
RF FREQUENCY (MHz)
10
MAX2032 toc07
10
VCC = 5.0V
29
25
1000
VCC = 5.25V
31
27
850
900
950
RF FREQUENCY (MHz)
1000
33
27
800
950
PRF = 0dBm/TONE
35
27
23
900
INPUT IP3 vs. RF FREQUENCY
37
33
31
850
RF FREQUENCY (MHz)
NOISE FIGURE (dB)
INPUT IP3 (dBm)
35
NOISE FIGURE (dB)
900
INPUT IP3 vs. RF FREQUENCY
37
MAX2032 toc04
PRF = 0dBm/TONE
850
RF FREQUENCY (MHz)
INPUT IP3 vs. RF FREQUENCY
37
MAX2032 toc03
5
800
INPUT IP3 (dBm)
900
MAX2032 toc05
850
7
6
5
800
VCC = 4.75V, 5.0V, 5.25V
8
MAX2032 toc09
6
PLO = -3dBm, 0dBm, +3dBm
8
9
CONVERSION LOSS (dB)
TC = -25°C
9
CONVERSION LOSS (dB)
TC = +85°C
8
CONVERSION LOSS vs. RF FREQUENCY
10
MAX2032 toc02
MAX2032 toc01
9
CONVERSION LOSS (dB)
CONVERSION LOSS vs. RF FREQUENCY
10
MAX2032 toc06
CONVERSION LOSS vs. RF FREQUENCY
10
900
950
RF FREQUENCY (MHz)
1000
800
850
900
950
RF FREQUENCY (MHz)
1000
800
850
900
950
1000
RF FREQUENCY (MHz)
_______________________________________________________________________________________
www.BDTIC.com/maxim
5
NBY3143
````````````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ
(Typical Application Circuit, optimized for the 800MHz/900MHz cellular band (see Table 1), C1 = 82pF, C5 = 2pF, L1 and C4 not used,
VCC = 5.0V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 160MHz, TC = +25°C, unless otherwise noted.)
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, optimized for the 800MHz/900MHz cellular band (see Table 1), C1 = 82pF, C5 = 2pF, L1 and C4 not used,
VCC = 5.0V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 160MHz, TC = +25°C, unless otherwise noted.)
Downconverter Curves
2LO - 2RF RESPONSE
vs. RF FREQUENCY
TC = +85°C
65
55
TC = -25°C
TC = -40°C
850
900
950
65
PLO = +3dBm
55
45
850
900
55
VCC = 5.25V
45
950
1000
800
850
900
950
3LO - 3RF RESPONSE
vs. RF FREQUENCY
3LO - 3RF RESPONSE
vs. RF FREQUENCY
65
PLO = 0dBm
3LO - 3RF RESPONSE (dBc)
3LO - 3RF RESPONSE (dBc)
75
PRF = 0dBm
85
95
MAX2032 toc14
95
75
PLO = -3dBm
65
1000
800
RF FREQUENCY (MHz)
900
950
INPUT P1dB (dBm)
25
TC = -25°C, +85°C
TC = +25°C
950
RF FREQUENCY (MHz)
1000
900
950
1000
INPUT P1dB vs. RF FREQUENCY
MAX2032 toc17
29
VCC = 5.25V
27
25
PLO = -3dBm
25
VCC = 4.75V
23
21
21
850
RF FREQUENCY (MHz)
23
23
900
800
1000
PLO = 0dBm, +3dBm
27
27
850
VCC = 4.75V
INPUT P1dB vs. RF FREQUENCY
29
MAX2032 toc16
TC = -40°C
VCC = 5.0V
65
RF FREQUENCY (MHz)
INPUT P1dB vs. RF FREQUENCY
29
850
INPUT P1dB (dBm)
950
75
55
55
900
VCC = 5.25V
PLO = +3dBm
55
850
PRF = 0dBm
85
1000
MAX2032 toc15
3LO - 3RF RESPONSE
vs. RF FREQUENCY
TC = -40°C, -25°C
6
65
RF FREQUENCY (MHz)
TC = +85°C
800
75
RF FREQUENCY (MHz)
TC = +25°C
800
VCC = 4.75V, 5.0V
RF FREQUENCY (MHz)
PRF = 0dBm
85
PRF = 0dBm
35
800
1000
MAX2032 toc13
800
3LO - 3RF RESPONSE (dBc)
75
85
35
35
95
PLO = 0dBm P = -3dBm
LO
MAX2032 toc18
45
PRF = 0dBm
MAX2032 toc12
75
85
2LO - 2RF RESPONSE (dBc)
TC = +25°C
MAX2032 toc10
PRF = 0dBm
2LO - 2RF RESPONSE (dBc)
2LO - 2RF RESPONSE (dBc)
85
2LO - 2RF RESPONSE
vs. RF FREQUENCY
MAX2032 toc11
2LO - 2RF RESPONSE
vs. RF FREQUENCY
INPUT P1dB (dBm)
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
VCC = 5.0V
21
800
850
900
950
RF FREQUENCY (MHz)
1000
800
850
900
950
RF FREQUENCY (MHz)
_______________________________________________________________________________________
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1000
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
Downconverter Curves
LO SWITCH ISOLATION
vs. LO FREQUENCY
TC = -40°C, -25°C
50
TC = +85°C
45
TC = +25°C
40
950
1050
1150
50
PLO = -3dBm, 0dBm, +3dBm
45
1250
950
1050
1150
850
1250
950
1050
1150
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
-40
PLO = -3dBm, 0dBm, +3dBm
-50
-60
-60
1010
1060
1110
960
1160
1010
1060
1110
MAX2032 toc24
MAX2032 toc23
-30
VCC = 5.25V
-30
-40
VCC = 4.75V
VCC = 5.0V
-50
-60
1160
960
1010
1060
1110
LO FREQUENCY (MHz)
LO FREQUENCY (MHz)
LO FREQUENCY (MHz)
LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
-30
TC = +85°C
-35
TC = +25°C
-40
-45
-25
-30
PLO = -3dBm, 0dBm, +3dBm
-35
-40
1050
1150
LO FREQUENCY (MHz)
1250
-20
VCC = 5.25V
-25
-30
VCC = 4.75V
-35
VCC = 5.0V
-40
-45
-45
950
MAX2032 toc27
-20
1160
-15
LO LEAKAGE AT RF PORT (dBm)
-25
MAX2032 toc26
TC = -40°C, -25°C
-15
LO LEAKAGE AT RF PORT (dBm)
MAX2032 toc25
-15
1250
-20
LO LEAKAGE AT IF PORT (dBm)
-50
-20
LO LEAKAGE AT IF PORT (dBm)
MAX2032 toc22
TC = +85°C
850
MAX2032 toc21
40
850
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
TC = +25°C
-20
VCC = 4.75V, 5.0V, 5.25V
45
LO FREQUENCY (MHz)
TC = -40°C, -25°C
960
50
LO FREQUENCY (MHz)
-30
-40
55
LO FREQUENCY (MHz)
-20
LO LEAKAGE AT IF PORT (dBm)
55
40
850
LO LEAKAGE AT RF PORT (dBm)
60
LO SWITCH ISOLATION (dB)
55
LO SWITCH ISOLATION
vs. LO FREQUENCY
MAX2032 toc20
MAX2032 toc19
60
LO SWITCH ISOLATION (dB)
LO SWITCH ISOLATION (dB)
60
LO SWITCH ISOLATION
vs. LO FREQUENCY
850
950
1050
1150
LO FREQUENCY (MHz)
1250
850
950
1050
1150
1250
LO FREQUENCY (MHz)
_______________________________________________________________________________________
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7
NBY3143
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, optimized for the 800MHz/900MHz cellular band (see Table 1), C1 = 82pF, C5 = 2pF, L1 and C4 not used,
VCC = 5.0V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 160MHz, TC = +25°C, unless otherwise noted.)
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, optimized for the 800MHz/900MHz cellular band (see Table 1), C1 = 82pF, C5 = 2pF, L1 and C4 not used,
VCC = 5.0V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 160MHz, TC = +25°C, unless otherwise noted.)
Downconverter Curves
RF-TO-IF ISOLATION
vs. RF FREQUENCY
50
45
TC = -40°C, -25°C
35
50
45
40
PLO = -3dBm
PLO = 0dBm
35
30
850
900
950
1000
45
VCC = 4.75V, 5.0V, 5.25V
40
35
30
800
850
900
950
800
1000
850
900
950
1000
RF FREQUENCY (MHz)
RF FREQUENCY (MHz)
RF PORT RETURN LOSS
vs. RF FREQUENCY
IF PORT RETURN LOSS
vs. IF FREQUENCY
IF PORT RETURN LOSS
vs. IF FREQUENCY
15
20
PLO = -3dBm, 0dBm, +3dBm
25
15
20
VCC = 4.75V, 5.0V, 5.25V
25
30
35
40
10
850
900
950
1000
1050
20
PLO = -3dBm, 0dBm, +3dBm
25
30
35
40
50
50
800
15
45
45
30
INCLUDES IF TRANSFORMER
5
IF PORT RETURN LOSS (dB)
10
IF PORT RETURN LOSS (dB)
10
INCLUDES IF TRANSFORMER
5
0
MAX2032 toc32
0
MAX2032 toc31
5
0
100
200
300
400
0
500
100
200
300
400
RF FREQUENCY (MHz)
IF FREQUENCY (MHz)
IF FREQUENCY (MHz)
LO SELECTED RETURN LOSS
vs. LO FREQUENCY
LO UNSELECTED RETURN LOSS
vs. LO FREQUENCY
SUPPLY CURRENT
vs. TEMPERATURE (TC)
15
PLO = +3dBm
PLO = 0dBm
20
25
30
35
10
PLO = -3dBm, 0dBm, +3dBm
20
30
40
500
MAX2032 toc36
100
VCC = 5.25V
SUPPLY CURRENT (mA)
10
0
MAX2032 toc35
5
LO UNSELECTED RETURN LOSS (dB)
MAX2032 toc34
0
90
80
VCC = 5.0V
VCC = 4.75V
70
50
PLO = -3dBm
60
40
800
900
1000
1100
LO FREQUENCY (MHz)
8
50
RF FREQUENCY (MHz)
0
750
MAX2032 toc30
55
30
800
RF PORT RETURN LOSS (dB)
PLO = +3dBm
MAX2032 toc33
40
55
RF-TO-IF ISOLATION (dB)
TC = +25°C
60
MAX2032 toc29
MAX2032 toc28
60
RF-TO-IF ISOLATION (dB)
RF-TO-IF ISOLATION (dB)
55
TC = +85°C
RF-TO-IF ISOLATION
vs. RF FREQUENCY
RF-TO-IF ISOLATION
vs. RF FREQUENCY
60
LO SELECTED RETURN LOSS (dB)
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
1200
1300
60
800
900
1000
1100
LO FREQUENCY (MHz)
1200
1300
-40
-15
10
35
TEMPERATURE (°C)
_______________________________________________________________________________________
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60
85
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
Downconverter Curves
TC = +25°C
5
650
700
750
800
PLO = -3dBm, 0dBm, +3dBm
6
5
850
RF FREQUENCY (MHz)
700
750
800
850
MAX2032 toc39
650
TC = +25°C
TC = +85°C
30
34
32
30
750
800
850
INPUT IP3 vs. RF FREQUENCY
PRF = 0dBm/TONE
INPUT IP3 (dBm)
34
700
RF FREQUENCY (MHz)
36
MAX2032 toc40
PRF = 0dBm/TONE
INPUT IP3 (dBm)
VCC = 4.75V, 5.0V, 5.25V
6
INPUT IP3 vs. RF FREQUENCY
INPUT IP3 vs. RF FREQUENCY
TC = +25°C
7
RF FREQUENCY (MHz)
36
32
8
5
650
36
PRF = 0dBm/TONE
34
INPUT IP3 (dBm)
TC = -40°C
7
MAX2032 toc41
6
8
CONVERSION LOSS (dB)
7
CONVERSION LOSS vs. RF FREQUENCY
9
MAX2032 toc38
MAX2032 toc37
TC = +85°C
8
CONVERSION LOSS (dB)
CONVERSION LOSS (dB)
CONVERSION LOSS vs. RF FREQUENCY
9
PLO = -3dBm, 0dBm, +3dBm
MAX2032 toc42
CONVERSION LOSS vs. RF FREQUENCY
9
VCC = 5.25V
32
VCC = 5.0V
30
VCC = 4.75V
28
26
26
700
750
800
26
650
850
700
750
800
850
700
750
800
RF FREQUENCY (MHz)
RF FREQUENCY (MHz)
2LO - 2RF RESPONSE
vs. RF FREQUENCY
2LO - 2RF RESPONSE
vs. RF FREQUENCY
2LO - 2RF RESPONSE
vs. RF FREQUENCY
80
PRF = 0dBm
TC = +85°C
60
TC = +25°C
50
70
PLO = +3dBm
60
PLO = 0dBm
50
PLO = -3dBm
TC = -40°C
40
750
800
RF FREQUENCY (MHz)
850
850
70
60
50
VCC = 4.75V, 5.0V, 5.25V
40
40
700
PRF = 0dBm
2LO - 2RF RESPONSE (dBc)
70
80
MAX2032 toc44
PRF = 0dBm
2LO - 2RF RESPONSE (dBc)
80
650
650
RF FREQUENCY (MHz)
MAX2032 toc43
650
2LO - 2RF RESPONSE (dBc)
28
MAX2032 toc45
TC = -40°C
28
650
700
750
800
RF FREQUENCY (MHz)
850
650
700
750
800
850
RF FREQUENCY (MHz)
_______________________________________________________________________________________
www.BDTIC.com/maxim
9
NBY3143
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, optimized for the 700MHz band (see Table 1), C1 = 7pF, C5 = 3.3pF, L1 and C4 are not used, VCC =
5V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 140MHz, TC = +25°C, unless otherwise noted.)
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, optimized for the 700MHz band (see Table 1), C1 = 7pF, C5 = 3.3pF, L1 and C4 are not used, VCC =
5V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 140MHz, TC = +25°C, unless otherwise noted.)
Downconverter Curves
PRF = 0dBm
TC = +85°C
TC = -40°C
75
PLO = -3dBm, 0dBm, +3dBm
65
85
PRF = 0dBm
VCC = 5.25V
3LO - 3RF RESPONSE (dBc)
75
65
85
MAX2032 toc47
PRF = 0dBm
3LO - 3RF RESPONSE (dBc)
3LO - 3RF RESPONSE (dBc)
TC = +25°C
MAX2032 toc46
85
3LO - 3RF RESPONSE
vs. RF FREQUENCY
3LO - 3RF RESPONSE
vs. RF FREQUENCY
MAX2032 toc48
3LO - 3RF RESPONSE
vs. RF FREQUENCY
75
VCC = 5.0V
65
VCC = 4.75V
750
800
55
55
850
650
RF FREQUENCY (MHz)
INPUT P1dB vs. RF FREQUENCY
800
650
850
24
INPUT P1dB (dBm)
TC = +25°C
PLO = +3dBm
23
TC = +85°C
750
800
850
INPUT P1dB vs. RF FREQUENCY
23
PLO = 0dBm
22
700
RF FREQUENCY (MHz)
INPUT P1dB vs. RF FREQUENCY
25
MAX2032 toc49
24
INPUT P1dB (dBm)
750
RF FREQUENCY (MHz)
25
22
700
25
VCC = 5.25V
VCC = 5.0V
24
INPUT P1dB (dBm)
700
MAX2032 toc50
650
MAX2032 toc51
55
23
22
VCC = 4.75V
21
21
21
TC = -40°C
PLO = -3dBm
20
20
700
750
800
850
750
800
850
700
750
800
RF FREQUENCY (MHz)
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
-25
PLO = +3dBm
-35
PLO = 0dBm
PLO = -3dBm
840
890
940
LO FREQUENCY (MHz)
990
MAX2032 toc54
850
VCC = 5.25V
-25
-35
VCC = 5.0V
VCC = 4.75V
-45
-45
-15
LO LEAKAGE AT IF PORT (dBm)
TC = +25°C
-15
MAX2032 toc53
MAX2032 toc52
TC = -40°C
-25
790
650
RF FREQUENCY (MHz)
TC = +85°C
10
700
RF FREQUENCY (MHz)
-15
-35
20
650
LO LEAKAGE AT IF PORT (dBm)
650
LO LEAKAGE AT IF PORT (dBm)
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
-45
790
840
890
940
LO FREQUENCY (MHz)
990
790
840
890
940
LO FREQUENCY (MHz)
______________________________________________________________________________________
www.BDTIC.com/maxim
990
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
Downconverter Curves
TC = +85°C
TC = +25°C
-30
PLO = -3dBm
-25
PLO = 0dBm
-30
840
890
940
990
790
890
940
790
840
890
940
2LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
PLO = +3dBm
-25
-30
PLO = 0dBm
-35
PLO = -3dBm
-20
2LO LEAKAGE AT RF PORT (dBm)
TC = +85°C
MAX2032 toc59
MAX2032 toc58
TC = +25°C
-35
-20
890
940
840
790
990
RF-TO-IF ISOLATION vs. RF FREQUENCY
940
RF-TO-IF ISOLATION (dB)
-35
790
990
50
TC = +25°C
30
50
40
PLO = -3dBm, 0dBm, +3dBm
30
800
RF FREQUENCY (MHz)
850
840
890
940
990
LO FREQUENCY (MHz)
RF-TO-IF ISOLATION vs. RF FREQUENCY
60
MAX2032 toc62
TC = +85°C
750
VCC = 4.75V
-30
RF-TO-IF ISOLATION vs. RF FREQUENCY
60
MAX2032 toc61
60
700
-25
LO FREQUENCY (MHz)
LO FREQENCY (MHz)
TC = -40°C
890
RF-TO-IF ISOLATION (dB)
840
VCC = 5.0V
VCC = 5.25V
990
-40
-40
-40
MAX2032 toc57
-30
990
2LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
-30
650
-25
2LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
-25
40
VCC = 4.75V
LO FREQUENCY (MHz)
TC = -40°C
790
VCC = 5.0V
LO FREQUENCY (MHz)
-20
RF-TO-IF ISOLATION (dB)
840
-20
LO FREQUENCY (MHz)
2LO LEAKAGE AT RF PORT (dBm)
790
2LO LEAKAGE AT RF PORT (dBm)
-20
VCC = 5.25V
-15
MAX2032 toc63
-25
PLO = +3dBm
-15
-10
MAX2032 toc60
-20
MAX2032 toc56
TC = -40°C
-15
LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
-10
LO LEAKAGE AT RF PORT (dBm)
MAX2032 toc55
LO LEAKAGE AT RF PORT (dBm)
-10
LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
LO LEAKAGE AT RF PORT (dBm)
LO LEAKAGE AT RF PORT
vs. LO FREQUENCY
50
VCC = 4.75V, 5.0V, 5.25V
40
30
650
700
750
800
RF FREQUENCY (MHz)
850
650
700
750
800
850
RF FREQUENCY (MHz)
______________________________________________________________________________________
www.BDTIC.com/maxim
11
NBY3143
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, optimized for the 700MHz band (see Table 1), C1 = 7pF, C5 = 3.3pF, L1 and C4 are not used, VCC =
5V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 140MHz, TC = +25°C, unless otherwise noted.)
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, optimized for the 700MHz band (see Table 1), C1 = 7pF, C5 = 3.3pF, L1 and C4 are not used, VCC =
5V, PLO = 0dBm, PRF = 0dBm, fLO > fRF, fIF = 140MHz, TC = +25°C, unless otherwise noted.)
Downconverter Curves
RF PORT RETURN LOSS
vs. RF FREQUENCY
10
15
800
VCC = 4.75V, 5.0V, 5.25V
900
1000
50
100
150
200
MAX2032 toc66
30
250
300
600
350
750
900
100
VCC = 5.25V
SUPPLY CURRENT (mA)
10
PLO = -3dBm, 0dBm, +3dBm
30
90
80
VCC = 5.0V
70
VCC = 4.75V
60
40
600
750
900
1050
LO FREQENCY (MHz)
1200
-40
1050
LO FREQUENCY (MHz)
SUPPLY CURRENT
vs. TEMPERATURE (TC)
MAX2032 toc67
0
LO UNSELECTED RETURN LOSS (dB)
20
IF FREQUENCY (MHz)
LO UNSELECTED RETURN LOSS
vs. LO FREQUENCY
12
PLO = +3dBm
40
25
RF FREQUENCY (MHz)
20
PLO = 0dBm
MAX2032 toc68
700
15
10
PLO = -3dBm
25
600
10
20
PLO = -3dBm, 0dBm, +3dBm
500
5
0
LO SELECTED RETURN LOSS (dB)
IF PORT RETURN LOSS (dB)
fLO = 890MHz
MAX2032 toc65
0
MAX2032 toc64
5
20
LO SELECTED RETURN LOSS
vs. LO FREQUENCY
IF PORT RETURN LOSS
vs. IF FREQUENCY
0
RF PORT RETURN LOSS (dB)
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
-15
10
35
60
85
TEMPERATURE (NC)
______________________________________________________________________________________
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1200
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
Upconverter Curves
CONVERSION LOSS vs. RF FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
TC = -25°C
TC = -40°C
5
5
800
850
900
950
1000
MAX2032 toc71
VCC = 4.75V, 5.0V, 5.25V
6
5
3
750
1050
7
4
3
750
800
850
900
950
1000
1050
750
800
850
900
950
1000
1050
INPUT IP3 vs. RF FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
INPUT IP3 vs. RF FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
INPUT IP3 vs. RF FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
35
35
35
PIF = 0dBm/TONE
TC = -25°C
TC = -40°C
PIF = 0dBm/TONE
33
31
TC = +25°C
27
29
INPUT IP3 (dBm)
INPUT IP3 (dBm)
TC = +85°C
PLO = -3dBm, 0dBm, +3dBm
27
29
VCC = 4.75V
25
25
23
23
23
21
21
750
800
850
900
950
1000
1050
VCC = 5.0V
27
25
21
VCC = 5.25V
31
31
29
PIF = 0dBm/TONE
33
MAX2032 toc74
RF FREQUENCY (MHz)
MAX2032 toc73
RF FREQUENCY (MHz)
MAX2032 toc72
RF FREQUENCY (MHz)
33
750
800
850
900
950
1000
750
1050
800
850
900
950
1000
1050
RF FREQUENCY (MHz)
LO + 2IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
LO + 2IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
LO + 2IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
80
80
80
PIF = 0dBm
TC = -40°C, -25°C
TC = +25°C
70
65
75
LO + 2IF REJECTION (dBc)
75
TC = +85°C
60
PIF = 0dBm
PLO = +3dBm
70
65
PLO = -3dBm
60
PLO = 0dBm
910
960
1010
1060
1110
LO FREQUENCY (MHz)
1160
1210
VCC = 5.25V
75
70
VCC = 5.0V
65
60
VCC = 4.75V
50
50
50
PIF = 0dBm
55
55
55
MAX2032 toc77
RF FREQUENCY (MHz)
MAX2032 toc75
RF FREQUENCY (MHz)
LO + 2IF REJECTION (dBc)
INPUT IP3 (dBm)
PLO = -3dBm, 0dBm, +3dBm
4
4
LO + 2IF REJECTION (dBc)
7
6
8
MAX2032 toc76
CONVERSION LOSS (dB)
7
6
8
CONVERSION LOSS (dB)
TC = +85°C
9
MAX2032 toc70
TC = +25°C
8
9
MAX2032 toc69
9
CONVERSION LOSS vs. RF FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
CONVERSION LOSS (dB)
CONVERSION LOSS vs. RF FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
910
960
1010
1060
1110
LO FREQUENCY (MHz)
1160
1210
910
960
1010
1060
1110
1160
1210
LO FREQUENCY (MHz)
______________________________________________________________________________________
www.BDTIC.com/maxim
13
NBY3143
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, L1 = 4.7nH, C4 = 6pF, C5 not used, VCC = 5.0V, PLO = 0dBm, PIF = 0dBm, fRF = fLO + fIF, fIF = 160MHz,
TC = +25°C, unless otherwise noted.)
```````````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, L1 = 4.7nH, C4 = 6pF, C5 not used, VCC = 5.0V, PLO = 0dBm, PIF = 0dBm, fRF = fLO + fIF, fIF = 160MHz,
TC = +25°C, unless otherwise noted.)
Upconverter Curves
80
80
80
75
65
TC = +25°C
60
55
60
PLO = -3dBm
PLO = 0dBm
960
1010
1060
1110
1160
1210
VCC = 5.25V
70
VCC = 5.0V
65
60
VCC = 4.75V
55
50
910
50
910
960
1010
1060
1110
1160
1210
910
960
1010
1060
1110
1160
1210
LO + 3IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
LO + 3IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
LO + 3IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
90
90
90
80
TC = -40°C, -25°C, +25°C, +85°C
70
60
PIF = 0dBm
80
LO + 3IF REJECTION (dBc)
PIF = 0dBm
PLO = -3dBm, 0dBm, +3dBm
70
60
50
50
910
960
1010
1060
1110
1160
PIF = 0dBm VCC = 5.25V
80
VCC = 4.75V, 5.0V
70
60
50
910
1210
MAX2032 toc83
LO FREQUENCY (MHz)
MAX2032 toc82
LO FREQUENCY (MHz)
MAX2032 toc81
LO FREQUENCY (MHz)
LO + 3IF REJECTION (dBc)
960
1010
1060
1110
1160
1210
910
960
1010
1060
1110
1160
1210
LO FREQUENCY (MHz)
LO - 3IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
LO - 3IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
LO - 3IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
90
90
90
PIF = 0dBm
TC = -40°C, -25°C, +25°C
LO - 3IF REJECTION (dBc)
80
TC = +85°C
70
60
PIF = 0dBm
80
PLO = -3dBm, 0dBm, +3dBm
70
60
50
50
910
960
1010
1060
1110
LO FREQUENCY (MHz)
1160
1210
PIF = 0dBm
VCC = 5.25V
MAX2032 toc86
LO FREQUENCY (MHz)
MAX2032 toc84
LO FREQUENCY (MHz)
LO - 3IF REJECTION (dBc)
LO + 3IF REJECTION (dBc)
65
55
50
14
PLO = +3dBm
70
PIF = 0dBm
75
MAX2032 toc85
LO - 2IF REJECTION (dBc)
TC = +85°C
70
PIF = 0dBm
LO - 2IF REJECTION (dBc)
TC = -40°C, -25°C
LO - 2IF REJECTION (dBc)
PIF = 0dBm
MAX2032 toc80
LO - 2IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
MAX2032 toc79
LO - 2IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
MAX2032 toc78
LO - 2IF REJECTION vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
75
LO - 3IF REJECTION (dBc)
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
80
VCC = 4.75V
70
VCC = 5.0V
60
50
910
960
1010
1060
1110
LO FREQUENCY (MHz)
1160
1210
910
960
1010
1060
1110
LO FREQUENCY (MHz)
______________________________________________________________________________________
www.BDTIC.com/maxim
1160
1210
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
Upconverter Curves
-20
TC = -40°C, -25°C
-25
TC = +85°C
-30
TC = +25°C
-20
-25
PLO = -3dBm, 0dBm, +3dBm
-30
LO LEAKAGE AT RF PORT vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
910
960
1010
1060
1110
1160
-20
VCC = 5.25V
-25
VCC = 4.75V
-30
VCC = 5.0V
-35
910
1210
MAX2032 toc89
-15
-35
-35
960
1010
1060
1110
1160
1210
910
960
1010
1060
1110
1160
1210
LO FREQUENCY (MHz)
LO FREQUENCY (MHz)
LO FREQUENCY (MHz)
IF LEAKAGE AT RF PORT vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
IF LEAKAGE AT RF PORT vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
IF LEAKAGE AT RF PORT vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
-70
TC = +85°C
-80
-90
-100
PLO = 0dBm
-70
PLO = +3dBm
-80
-90
1010
-70
VCC = 4.75V
-80
-90
1160
1210
______________________________________________________________________________________
15
1060
1110
1160
1210
910
960
LO FREQUENCY (MHz)
1010
1060
1110
1160
1210
910
960
1010
1060
1110
LO FREQUENCY (MHz)
LO FREQUENCY (MHz)
RF PORT RETURN LOSS vs. RF FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
MAX2032 toc93
0
L1 AND C4 BPF
REMOVED
5
RF PORT RETURN LOSS (dB)
960
VCC = 5.25V
-100
-100
910
VCC = 5.0V
-60
MAX2032 toc92
PLO = -3dBm
-60
-50
IF LEAKAGE AT RF PORT (dBm)
TC = -40°C, -25°C
MAX2032 toc91
TC = +25°C
-60
-50
IF LEAKAGE AT RF PORT (dBm)
MAX2032 toc90
-50
IF LEAKAGE AT RF PORT (dBm)
MAX2032 toc88
-15
LO LEAKAGE AT RF PORT (dBm)
MAX2032 toc87
LO LEAKAGE AT RF PORT (dBm)
-15
LO LEAKAGE AT RF PORT vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
LO LEAKAGE AT RF PORT (dBm)
LO LEAKAGE AT RF PORT vs. LO FREQUENCY
(L-C BPF TUNED FOR 810MHz RF FREQUENCY)
L1 AND C4 BPF
INSTALLED
10
15
20
THE OPTIONAL L-C BPF
ENHANCES PERFORMANCE
IN THE UPCONVERTER
MODE, BUT LIMITS
RF BANDWIDTH
25
30
35
750
800
850
900
950
1000
1050
RF FREQUENCY (MHz)
www.BDTIC.com/maxim
NBY3143
```````````````````````````````````````````````````````````````````` ࢜ቯ৔ᔫᄂቶ)ኚ*
(Typical Application Circuit, L1 = 4.7nH, C4 = 6pF, C5 not used, VCC = 5.0V, PLO = 0dBm, PIF = 0dBm, fRF = fLO + fIF, fIF = 160MHz,
TC = +25°C, unless otherwise noted.)
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
``````````````````````````````````````````````````````````````````````````` ፛୭ႁී
፛୭
෗߂
1, 6, 8, 14
VCC
৖ถ
࢟ᏎLj୓ඛৈWDD ፛୭࣒ᄰਭ࢟ྏ๬വࡵHOELjྙ࢜ቯ።፿࢟വჅာă
࡝࣡61Ω SGၒྜྷ0ၒ߲Ljক࣡ాᎅด‫ݝ‬ປ๼Lj݀ᄰਭऻຳੰ‫ܤ‬ኹ໭ᒇഗ࣢വࡵHOEă
2
RF
3
TAP
ด‫ݝ‬SGऻຳੰ‫ܤ‬ኹ໭ࡼᒦቦߥᄿLjೌ୻ᒗ࢐ă
4, 5, 10, 12,
13, 16, 17, 20
GND
࢐ă
7
LOBIAS
ด‫ݝ‬MPદߡ໭ࡼມᒙ࢟ᔜLjᏴMPCJBTᎧ࢟Ꮞᒄମ୻ጙৈ634Ω ±2&ࡼ࢟ᔜă
9
LOSEL
‫࢐۾‬ᑩ࡬໭ኡᐋLjᄰਭ൝૷఼ᒜၒྜྷኡᐋMP2૞MP3ă
11
LO1
‫࢐۾‬ᑩ࡬໭ၒྜྷ2Lj୓MPTFMདࣅᒗࢅ࢟ຳኡᐋMP2ă
15
LO2
‫࢐۾‬ᑩ࡬໭ၒྜྷ3Lj୓MPTFMདࣅᒗ঱࢟ຳኡᐋMP3ă
18, 19
IF-, IF+
—
EP
‫ތ‬ॊJGၒྜྷ0ၒ߲ă
ൡ੆๤Ljด‫ࡵ୻ೌݝ‬HOEăকൡ੆๤ᄰਭࣶৈ୻࢐ਭ఻੆୻ࡵQDC੆๤Ljጲখ࿖໭ୈࡵQDC࢐ຳෂࡼྲེă
ࣶৈ୻࢐ਭ఻થᎌᓐ᎖খ࿖SGቶถă
``````````````````````````````` ሮᇼႁී
SG࣡ాਜ਼ऻຳੰ‫ܤ‬ኹ໭
NBY3143భᔫᆐሆ‫ܤ‬ຫ૘ຫ໭૞࿟‫ܤ‬ຫ૘ຫ໭ဧ፿Ljᄋ
৙ࡍᏖ8eCࡼ‫ܤ‬ຫႼ੒Ljᐅဉᇹၫ࢜ቯᒋᆐ8eCă৔ᔫᏴ
ሆ‫ܤ‬ຫਜ਼࿟‫ܤ‬ຫෝါဟLjሤ።ࡼ JJQ4 ॊܰᆐ ,44eCn ਜ਼
,42eCnăૹ߅ऻຳੰ‫ܤ‬ኹ໭ਜ਼ປ๼࢟വᏤ኏SG࣡ాਜ਼ೝ
ৈMP࣡ా஠ቲ61Ω࡝࣡ೌ୻ăSG࣡ాభᔫᆐሆ‫ܤ‬ຫ໭ࡼ
ၒྜྷ૞࿟‫ܤ‬ຫ໭ࡼၒ߲ă࡝࡮ၷᒖ)TQEU*ఎਈᏴೝৈMP
ၒྜྷᒄମ༤ધဟ௥ᎌ61otࡼఎਈဟମLjMPᒄମࡼ৆ಭࣞ
ᆐ 5:eCăࠥᅪLjૹ߅ MP દߡ໭భᆐ૘ຫ໭ਖ਼ᄋ৙঱ད
ࣅ࢟ຳLj୓NBY3143ၒྜྷჅኊࡼMPདࣅିቃࡵ.4eCnᒗ
,4eCnăሆ‫ܤ‬ຫဟLjJG࣡ా௥ᎌ‫ތ‬ॊၒ߲Ljభಯሯখ࿖
JJQ3ቶถǗ࿟‫ܤ‬ຫဟLjJG࣡ాᔫᆐ‫ތ‬ॊၒྜྷă
ࡩNBY3143ᔫᆐሆ‫ܤ‬ຫ໭ဧ፿ဟLjSGၒྜྷ࣡ด‫ݝ‬ປ๼ᒗ
61ΩLjᇄኊᅪ‫ݝ‬ປ๼Ꮔୈăᎅ᎖ၒྜྷ࣡ాᄰਭด‫ऻݝ‬ຳੰ
‫ܤ‬ኹ໭ᒇഗ࣢വࡵ࢐LjჅጲኊገ৆ᒇഗ࢟ྏăᔫᆐ࿟‫ܤ‬
ຫ໭ဧ፿ဟLjSG࣡ాᔫᆐ࡝࣡ၒ߲ᄴዹປ๼ᒗ61Ωă
໭ୈถ৫ۣᑺᏴ୷౑ࡼຫൈपᆍด९੝ਖपገཇLjభਓम
࢐፿᎖XDENBĂdenbPofUNĂdenb3111ਜ਼HTN! 9610HTN
:11! 3/6H! FEHF૥ᐶăNBY3143৔ᔫᏴ761NI{ᒗ2111NI{
ࡼSGຫൈपᆍĂ761NI{ᒗ2361NI{ࡼMPຫൈपᆍĂጲૺ
ᒇഗᒗ361NI{ࡼJGຫൈपᆍă໭ୈጐభ৔ᔫᏴ࿟ၤຫൈ
पᆍᒄᅪLjሮᇼቧᇦ༿‫ݬ‬୅࢜ቯ৔ᔫᄂቶă
NBY3143ᎁછ৔ᔫ᎖঱࣡MPᓖྜྷஉ৩Lj໭ୈጐభጲ৔ᔫ
Ᏼࢅ࣡MPᓖྜྷLj௥ᎌ౫ᐱࡼMPपᆍLjࡣ໚ቶถ્ႲᓹgMP
ࡼሆଢ଼ऎଢ଼ࢅă࢜ቯ৔ᔫᄂቶᒦ৊߲೫gMP ࢅ᎖:71NI{ဟ
ࡼ‫ހ‬၂உਫăਈ᎖ᑣ࣪MPຫൈࢅ᎖:71NI{ऎᎁછࡼ፛୭
ରྏ໭ୈLj༿‫ݬ‬ఠNBY313:ă
MPၒྜྷĂદߡ໭ਜ਼ऻຳੰ‫ܤ‬ኹ໭
NBY3143ᑣ࣪761NI{ᒗ2361NI{ MPຫൈपᆍࡼ঱࣡MP
ᓖྜྷஉ৩஠ቲ೫ᎁછă࣪᎖ MP ຫൈपᆍᆐ 681NI{ ᒗ
:11NI{ࡼ໭ୈLj༿‫ݬ‬ఠNBY313:ăNBY3143થ۞౪ด‫ݝ‬
MP TQEUఎਈLjᑚጙএଝ৖ถဧ໚ถ৫፿᎖ᄢຫ࿸ଐăক
ఎਈ፿౶ኡᐋೝৈ࡝࣡MP࣡ాLjᏤ኏ᅪ‫ݝ‬ᑩ࡬໭Ᏼఎਈ
୻ᄰᒄ༄୐ೂᏴᄂࢾຫൈ࿟ăMP ఎਈဟମ࢜ቯᒋቃ᎖
61otLjถ৫൸ᔗଂઃჅᎌࡼHTN።፿ገཇăྙਫ‫ݙ‬ဧ፿ᄢ
ຫ৖ถLj୓ఎਈ࿸ᒙࡵྀፀጙৈMPၒྜྷăকఎਈᎅၫᔊ
ၒྜྷ)MPTFM*఼ᒜǖၫᔊၒྜྷᆐ൝૷঱࢟ຳဟLjኡᒦ
MP3Ǘᆐ൝૷ࢅ࢟ຳဟLjኡᒦMP2ăᆐ‫ܜ‬඾ᑚ‫ݝ‬ॊ࢟വႼ
ડLjᏴ৊MPTFMဗଝၫᔊ൝૷࢟ຳᒄ༄Lj‫ܘ‬ኍሌ৊WDD ଝ
࢟)‫ݬ‬୅ Bctpmvuf Nbyjnvn Sbujoht*ăMP2ਜ਼MP3ၒྜྷด‫ݝ‬
ປ๼ᒗ61ΩLjඛৈၒྜྷ࣡ኊ୻ጙᒑ93qGࡼ৆ᒇ࢟ྏă
denbPofဵDENB Efwfmpqnfou! Hspvqࡼ࿜‫ܪ‬ă
16
______________________________________________________________________________________
www.BDTIC.com/maxim
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
঱ሣቶࣞ૘ຫ໭
NBY3143ࡼਖ਼ቦဵጙৈၷຳੰĂ঱ቶถࡼᇄᏎ૘ຫ໭ă
ด‫ݝ‬MPદߡ໭ၒ߲௥ᎌ୷঱ࡼMP‫ڼ‬७Ljᄋ৙߲ྻࡼሣ
ቶࣞă
‫ތ‬ॊJG
NBY3143૘ຫ໭ࡼJGຫൈपᆍᆐᒇഗᒗ361NI{ăᑚቋ‫ތ‬
ॊ࣡ా࣪᎖ᄋ৙ᐐ༓ࡼJJQ3ቶถऻ‫ޟ‬ᎌ቉ă࡝࣡JG።፿ኊ
ገጙৈ2;2ऻຳੰ‫ܤ‬ኹ໭୓JG 61Ω‫ތ‬ॊᔜఝᓞછᆐ61Ω࡝
࣡ᔜఝăளਭऻຳੰ‫ܤ‬ኹ໭ᓞધᒄઁLjJGૄ݆Ⴜ੒ᎁ᎖
26eCă፿ᔫ࿟‫ܤ‬ຫ໭ဟLj‫ތ‬ॊJGᔫᆐၒྜྷ࣡ాă፿ઓభ
Ᏼ૘ຫ໭ᒄઁ୻ጙৈ‫ތ‬ॊJGहࡍ໭LjࡣࠥဟೝৈJG፛୭ኊ
ገ৆ᒇഗă
``````````````````````````````` ።፿ቧᇦ
ၒྜྷਜ਼ၒ߲ປ๼
SGਜ਼MPၒྜྷ࣡ด‫ݝ‬ປ๼ᒗ61ΩLjᇄኊᅪ୻ປ๼Ꮔୈă፿
ᔫሆ‫ܤ‬ຫ໭ဟLjᏴᑳৈၒྜྷपᆍ)761NI{ᒗ2111NI{*ดLj
SG࣡ాࡼ࢜ቯૄ݆Ⴜ੒ᎁ᎖26eCǗMP࣡ాࡼ࢜ቯૄ݆Ⴜ
੒ᆐ26eC ):71NI{ᒗ2291NI{*ăSGਜ਼MPၒྜྷ࣡ᒑኊገೌ
୻৆ᒇഗ࢟ྏ)ྙ‫ܭ‬2Ⴥာ*ă
భጲኡᐋᏴSG࣡ా‫ڔ‬ᓤM.Dࡒᄰ൉݆໭)CQG*Ljጲᄋ঱࿟
‫ܤ‬ຫᓞધቶถă ࢜ቯ።፿࢟വ ਜ਼ ࢜ቯ৔ᔫᄂቶ ᒦᄋ৙೫
๼੝ࢯቕᏴ921NI{ SGຫൈࡼM.D CQG৔ᔫဟLj࿟‫ܤ‬ຫ໭
ࡼ৔ᔫᓨౚăኡᐋ‫ݙ‬ᄴࡼM2ਜ਼D5Ljభጲᑣ࣪໚჈ຫൈᎁ
છ৔ᔫቶถăጤ߹M2ਜ਼D5భጲ૝ࡻৎ౑ࡼປ๼पᆍLjࡣ
્ଢ଼ࢅቶถᒎ‫ܪ‬Ljሮᇼቧᇦ༿ೊᇹ৔‫ޣ‬ă
JGၒ߲ᔜఝᆐ61Ω )‫ތ‬ॊ*ăᆐऱ‫ຶܣ‬ৰLjᄰਭᅪ‫ࢅݝ‬Ⴜ੒
2;2 )ᔜఝ‫ऻ*܈‬ຳੰ‫ܤ‬ኹ໭୓কᔜఝᓞછᆐ61Ω࡝࣡ၒ߲
)‫ݬ‬୅࢜ቯ።፿࢟വ*ă
‫ܭ‬2/! ࢜ቯ።፿࢟വᏄୈ೰‫ܭ‬
DESIGNATION
QTY
DESCRIPTION
SUPPLIER
82pF microwave capacitor (0603). Use for 800MHz/
900MHz cellular band applications.
C1
1
Murata Electronics North America, Inc.
7pF microwave capacitor (0603). Use for 700MHz band
applications.
C2, C7, C8, C10,
C11, C12
6
82pF microwave capacitors (0603)
Murata Electronics North America, Inc.
C3, C6, C9
3
0.01μF microwave capacitors (0603)
Murata Electronics North America, Inc.
C4*
1
6pF microwave capacitor (0603)
—
2pF microwave capacitor (0603). Use for 800MHz/
900MHz cellular band applications.
C5**
Murata Electronics North America, Inc.
1
3.3pF microwave capacitor (0603). Use for 700MHz band
applications.
L1*
1
4.7nH inductor (0603)
R1
1
523Ω ±1% resistor (0603)
Digi-Key Corp.
—
T1
1
MABAES0029 1:1 transformer (50:50)
M/A-Com, Inc.
U1
1
MAX2032 IC (20 TQFN)
Maxim Integrated Products, Inc.
* ஞᏴ૘ຫ໭፿ᔫ࿟‫ܤ‬ຫ໭ဟ‫ڔ‬ᓤD5ਜ਼M2ă
** ஞᏴ૘ຫ໭፿ᔫሆ‫ܤ‬ຫ໭ဟ‫ڔ‬ᓤD6ă
______________________________________________________________________________________
www.BDTIC.com/maxim
17
NBY3143
ೝ଀ด‫ݝ‬MPદߡ໭ᆐMPདࣅᄋ৙੪౑ࡼၒྜྷ৖ൈपᆍă
Ⴥᎌᒎ‫ܪ‬௿ਖࢾ᎖.4eCnᒗ,4eCn MPቧ੓৖ൈᄟୈሆă
ຢ࿟ࢅႼ੒ऻຳੰ‫ܤ‬ኹ໭ਜ਼MPદߡ໭ৢᄴདࣅၷຳੰ૘
ຫ໭ăMPၒྜྷᒗJGၒ߲ᒄମࡼ୻ాਜ਼ປ๼Ꮔୈ௿ጯૹ߅
Ᏼበຢด‫ݝ‬ă
NBY3143
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
ມᒙ࢟ᔜ
MPદߡ໭ࡼມᒙ࢟ഗభጲᄰਭᆈࢯ࢟ᔜS2஠ቲᎁછăྙ
ਫኊገጲଢ଼ࢅቶถᆐࡔଥ౶ଢ଼ࢅ࢟ഗLj༿Ꭷ৔‫ޣ‬ೊᇹ૝
ࡻሮᇼቧᇦăྙਫ੪ซᑊࡵ±2&ࡼມᒙ࢟ᔜLjభጲ፿±6&
ࡼ‫ܪ‬ᓰ࢟ᔜࡔᄐă
‫ݚ‬௜ఠ൅
࿸ଐ੝ಯࡼQDCဵSG0ᆈ݆࢟വࡼ૥‫۾‬ገཇLjኊۣᑺSGቧ
੓ሣ஧భถ࣢LjጲିቃႼ੒Ă६࿴ਜ਼࢟ঢăᆐ૝ࡻᔢଛ
ቶถLj୓୻࢐፛୭ᒇ୻ೌ୻ࡵॖᓤ࢏‫ࡼݝ‬ൡ੆๤LjQDCࡼ
ൡ੆๤‫ܘ‬ኍೌ୻ᒗQDCࡼ࢐‫ށ‬ăೌ୻ൡ੆๤ᒗ࢐‫ށ‬ဟLjᅎ
ୀဧ፿ࣶৈਭ఻ăᑚᒬऱजᆐ໭ୈᄋ৙೫೜ੑࡼSG0ࡴེ
വ஼Lj୓໭ୈॖᓤ۳ෂࡼൡ੆๤੆୻ᒗQDCă࢟വ‫ݚۇ‬௜
భጲ‫ݬ‬ఠNBY3143ຶৰ‫ۇ‬LjHfscfsᆪୈభᏴdijob/nbyjn.
jd/dpn࿺༿ࡻࡵă
18
࢟Ꮞ๬വ
੝ಯࡼ࢟Ꮞ๬വ࣪঱ຫ࢟വࡼᆮࢾቶᒗਈᒮገă፿࢟ྏ
๬വඛጙৈWDD ፛୭Ljྙ࢜ቯ።፿࢟വჅာLj݀‫ݬ‬ఠ‫ܭ‬2ă
ൡ੆๤SG0ྲེఠ൅
NBY3143! 31፛୭ۡቯRGO.FQॖᓤࡼൡ੆๤)FQ*ᄋ৙೫ጙ
ᄟೌ୻ᒗ਌በࡼࢅེᔜᄰവăᏴ‫ڔ‬ᓤNBY3143ࡼQDCᎧ
FQᒄମۣߒ೜ੑࡼེࠅ࢕ᄰࡸऻ‫ޟ‬ᒮገăࠥᅪLjFQᎧ࢟
໮࢐ᒄମથᄋ৙೫ጙᄟࢅ࢟ঢᄰവăFQ‫ܘ‬ኍᒇ୻૞ᄰਭ
ጙᇹ೰࢟ࣜਭ఻੆୻ᒗQDCࡼ࢐‫ށ‬ă
______________________________________________________________________________________
www.BDTIC.com/maxim
঱ሣቶࣞĂ761NI{ᒗ2111NI{
࿟‫ܤ‬ຫ0ሆ‫ܤ‬ຫ૘ຫ໭LjࡒᎌMPદߡ໭0ఎਈ
T1
1
4
3
5
IF
C3
RF
RF
C4
L1
19
17
GND
IF18
16
C12
VCC
C1
20
+
C2
IF+
GND
VCC
GND
C5
TAP
GND
GND
15
1
MAX2032
2
14
3
13
4
12
EP
11
5
LO2
LO2
VCC
VCC
C11
GND
GND
LO1
LO1
C10
10
GND
VCC
9
LOSEL
8
LOBIAS
7
VCC
6
R1
VCC
LOSEL
C6
C7
C8
VCC
NOTE: L1 AND C4 USED ONLY FOR UPCONVERTER OPERATION.
C5 USED ONLY FOR DOWNCONVERTER OPERATION.
C9
``````````````````````````````` በຢቧᇦ
``````````````````````````````` ॖᓤቧᇦ
PROCESS: SiGe BiCMOS
ྙኊᔢதࡼॖᓤᅪተቧᇦਜ਼੆๤‫ݚ‬௜Lj༿‫އ‬ኯ china.maxim-ic.
com/packagesă༿ᓖፀLjॖᓤ‫ܠ‬൩ᒦࡼĐ,đĂĐ$đ૞Đ.đஞ‫ܭ‬ာ
SpITᓨზăॖᓤᅄᒦభถ۞਺‫ݙ‬ᄴࡼᆘᓮᔊ९LjࡣॖᓤᅄᒑᎧॖ
ᓤᎌਈLjᎧSpITᓨზᇄਈă
ॖᓤಢቯ
ॖᓤ‫ܠ‬൩
ᆪ࡭‫ܠ‬੓
31፛୭ۡቯRGO.FQ
U3166,4
21-0140
Nbyjn‫࣪ݙ‬Nbyjn‫ޘ‬ອጲᅪࡼྀੜ࢟വဧ፿ঌᐊLjጐ‫ݙ‬ᄋ৙໚ᓜಽ኏భăNbyjnۣഔᏴྀੜဟମĂ඗ᎌྀੜᄰۨࡼ༄ᄋሆኀখ‫ޘ‬ອᓾ೯ਜ਼ਖৃࡼཚಽă
Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ______________________ 19
© 2009 Maxim Integrated Products
Nbyjn ဵ Nbyjn!Joufhsbufe!Qspevdut-!Jod/ ࡼᓖ‫ݿ‬࿜‫ܪ‬ă
www.BDTIC.com/maxim
NBY3143
`````````````````````````````````````````````````````````````````````` ࢜ቯ።፿࢟വ