HSMP-3892 Datasheet PDF - Agilent

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HSMP-3892
Agilent

Part Number HSMP-3892
Description (HSMP-38xx / HSMP-48xx) Surface Mount PIN Diodes
Page 12 Pages


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Surface Mount PIN Diodes
Technical Data
HSMP-38XX and
HSMP-48XX Series
Features
• Diodes Optimized for:
Low Current Switching
Low Distortion Attenuating
Ultra-Low Distortion
Switching
Microwave Frequency
Operation
• Surface Mount SOT-23 and
SOT-143 Packages
Single and Dual Versions
Tape and Reel Options
Available
• Low Failure in Time (FIT)
Rate[1]
Note:
1. For more information see the
Surface Mount PIN Reliability Data
Sheet.
Description/Applications
The HSMP-380X and HSMP-381X
series are specifically designed for
low distortion attenuator applica-
tions. The HSMP-382X series is
optimized for switching applica-
tions where ultra-low resistance is
required. The HSMP-3880 switch-
ing diode is an ultra low distortion
device optimized for higher power
applications from 50 MHz to
1.5 GHz. The HSMP-389X series is
optimized for switching applica-
tions where low resistance at low
current and low capacitance are
required. The HSMP-48XX series
are special products featuring
ultra low parasitic inductance in
the SOT-23 package, specifically
designed for use at frequencies
which are much higher than the
upper limit for conventional
SOT-23 PIN diodes. The
HSMP-4810 diode is a low distor-
tion attenuating PIN designed for
operation to 3 GHz. The
HSMP-4820 diode is ideal for
limiting and low inductance
switching applications up to
1.5 GHz. The HSMP-4890 is
optimized for low current switch-
ing applications up to 3 GHz.
The HSMP-386X series of general
purpose PIN diodes are designed
for two classes of applications.
The first is attenuators where
current consumption is the most
important design consideration.
The second application for this
series of diodes is in switches
where low cost is the driving
issue for the designer.
The HSMP-386X series Total
Capacitance (CT) and Total
Resistance (RT) are typical
specifications. For applications
that require guaranteed perfor-
mance, the general purpose
HSMP-383X series is recom-
mended. For low distortion
Package Lead Code
Identification
SINGLE
#0
SERIES
COMMON
ANODE
#2
COMMON
CATHODE
#3
UNCONNECTED
PAIR
#4
DUAL ANODE
#5
DUAL CATHODE
#A #B
attenuators, the HSMP-380X or
-381X series are recommended.
For high performance switching
applications, the HSMP-389X
series is recommended.
A SPICE model is not available
for PIN diodes as SPICE does not
provide for a key PIN diode
characteristic, carrier lifetime.



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Absolute
Maximum
Ratings[1]
T
A
=
25°C
Symbol
Parameter
Units Absolute Maximum
If
Pt
Piv
Tj
TSTG
Forward Current (1 ms Pulse)
Total Device Dissipation
Peak Inverse Voltage
Junction Temperature
Storage Temperature
Amp
mW [2]
°C
°C
1
250
Same as VBR
150
-65 to 150
Notes:
1. Operation in excess of any one of these conditions may result in permanent damage to
this device.
2. CW Power Dissipation at TLEAD = 25°C. Derate to zero at maximum rated temperature.
PIN Attenuator Diodes
Electrical
Specifications
T
A
=
25°C
(Each
Diode)
Part
Number
HSMP-
3800
3802
3804
Package
Marking
Code[1]
D0
D2
D4
Lead
Code
0
2
4
Nearest
Equivalent Minimum
Axial Lead Breakdown
Part No. Voltage
Configuration
5082-
VBR (V)
Single
3080
100
Series
Common Cathode
Maximum
Series
Resistance
RS ()
2.0
Maximum
Total
Capacitance
CT (pF)
0.37
Minimum
High
Resistance
RH ()
1000
Maximum
Low
Resistance
RL ()
8
3810 E0 0 Single
3081
100
3.0
0.35 1500 10
3812 E2 2 Series
3813 E3 3 Common Anode
3814 E4 4 Common Cathode
Test Conditions
VR = VBR
Measure
IR 10 µA
IF = 100 mA
f = 100 MHz
VR = 50 V
f = 1 MHz
IF = 0.01 mA IF = 20 mA
f = 100 MHz f= 100 MHz
PIN Switching Diodes
Electrical
Specifications
T
A
=
25°C
Part Package
Number Marking Lead
HSMP- Code[1] Code Configuration
Nearest
Equivalent
Axial Lead
Part No.
5082-
3820 F0 0 Single
3188
3822 F2 2 Series
3823 F3 3 Common Anode
3824 F4 4 Common Cathode
3880 S0 0 Single
3890 G0 0 Single
3892 G2 2 Series
3893 G3 3 Common Anode
3894 G4 4 Common Cathode
3895 G5 5 Unconnected Pair
Test Conditions
Minimum
Breakdown
Voltage
VBR (V)
50
100
100
VR = VBR
Measure
IR 10 µA
Note:
1. Package marking code is white.
Maximum
Series
Resistance
RS ()
0.6*
Maximum
Total
Capacitance
CT (pF)
0.8*
Maximum
Shunt Mode
Harmonic
Distortion
Hmd (dBc)
6.5 0.40 –55
2.5 0.30** —
IF = 5 mA
f = 100 MHz
IF = 10 mA*
VR = 50 V
f = 1 MHz
VR = 20 V*
VR = 5 V**
2 fo, Zo = 50 W
fo = 400 MHz
Pin = +30 dBm
0 V bias



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PIN General Purpose Diodes, Electrical Specifications TA = 25°C
Part
Number
HSMP-
Package
Marking
Code[1]
Lead
Code
Configuration
Nearest
Equivalent
Axial Lead
Part No.
5082-
Minimum
Breakdown
Voltage
VBR (V)
3830
3832
3833
3834
K0
K2
K3
K4
0 Single
2 Series
3 Common Anode
4 Common Cathode
3077
200
Test Conditions
VR = VBR
Measure
IR 10 mA
Maximum
Series
Resistance
RS ()
1.5
Maximum
Total
Capacitance
CT (pF)
0.3
IF = 100 mA
f = 100 MHz
VR = 50 V
f = 1 MHz
High Frequency (Low Inductance, 500 MHz – 3 GHz) PIN Diodes, Electrical Specifications TA = 25°C
Minimum
Maximum
Typical Maximum
Typical
Break-
Series
Total
Total
Total
Part Package
down
Resis-
Capaci-
Capaci-
Induc-
Number Marking Lead Config-
Voltage
tance
tance
tance
tance
Appli-
HSMP- Code Code uration
VBR (V)
RS ()
CT (pF)
CT (pF)
LT (nH)
cation
4810 EB B Dual
100 3.0 0.35 0.4 1.0 Attenu-
Cathode
ator
4820
FA A Dual Anode
50
0.6* 0.75* 1.0
1.0* Limiter
4890 GA A Dual Anode 100
2.5**
0.33 0.375
1.0 Switch
VR = VBR
Measure
IR 10 µA
IF = 100 mA
IF = 10 mA*
IF = 5 mA**
VR = 50 V
f = 1 MHz
VR = 20 V*
VR = 50 V
f = 1 MHz
VR = 0 V
f = 500 MHz –
3 GHz
VR = 20 V*
PIN General Purpose Diodes, Typical Specifications TA = 25°C
Part Number
HSMP-
3860
3862
3863
3864
Code
Marking
Code[1]
L0
L2
L3
L4
Lead
Code
0
2
3
4
Configuration
Single
Series
Common Anode
Common Cathode
Minimum
Breakdown
Voltage VBR (V)
50
Test Conditions
VR = VBR
Measure
IR 10 µA
Typical Series
Resistance
RS ()
3.0/1.5*
IF = 10 mA
f = 100 MHz
*IF = 100 mA
Typical Total
Capacitance
CT (pF)
0.20
VR = 50 V
f = 1 MHz
Typical Parameters at TA = 25°C
Part Number
HSMP-
Series Resistance
RS ()
380X
381X
382X
383X
388X
389X
55
75
1.5
20
3.8
3.8
Test Conditions
IF = 1 mA
f = 100 MHz
IF = 10 mA*
Note:
1. Package marking code is white.
Carrier Lifetime
τ (ns)
1800
1500
70*
500
2500
200*
IF = 50 mA
IR = 250 mA
IF = 10 mA*
IR = 6 mA*
Reverse Recovery Time
Trr (ns)
500
300
7
80
550
VR = 10 V
IF = 20 mA
90% Recovery
Total Capacitance
CT (pF)
0.32 @ 50 V
0.27 @ 50 V
0.60 @ 20 V
0.20 @ 50 V
0.30 @ 50 V
0.20 @ 5 V



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Typical Parameters at TA = 25°C (unless otherwise noted), Single Diode
0.45
0.35
10000
0.40
0.35
1 MHz
0.30
0.25 30 MHz
0.20
frequency>100 MHz
0.15
0 2 4 6 8 10 12 14 16 18 20
REVERSE VOLTAGE (V)
Figure 1. RF Capacitance vs. Reverse
Bias, HSMP-3810 Series.
0.30
0.25
1 MHz
100 MHz
0.20 1 GHz
0.15
0 2 4 6 8 10 12 14 16 18 20
REVERSE VOLTAGE (V)
Figure 2. RF Capacitance vs. Reverse
Bias, HSMP-3830 Series.
1000
100
HSMP-381x, /HSMP-4810
HSMP-383x, -386x
10
1 HSMP-382x, -4820
0.1
0.01
0.1
1
10 100
IF – FORWARD BIAS CURRENT (mA)
Figure 3. Resistance at 25°C vs.
Forward Bias Current.
3000
1000
100
TA = +85°C
TA = +25°C
TA = –55°C
10
1
0.01
0.1
1
10 100
IF – FORWARD BIAS CURRENT (mA)
Figure 4. RF Resistance vs. Forward
Bias Current for HSMP-3800.
10000
1000
TA = +85°C
TA = +25°C
TA = –55°C
100
10
1
0.01
0.1
1
10 100
IF – FORWARD BIAS CURRENT (mA)
Figure 5. RF Resistance vs. Forward
Bias Current for HSMP-3810/
HSMP-4810.
1.4
1.2
1 HSMP-382X
0.8
0.6
HSMP-3880
0.4
HSMP-3800
HSMP-381X
0.2
HSMP-3830 HSMP-3890
0
0 10 20 30 40
50
VR – REVERSE VOLTAGE (V)
Figure 6. Capacitance vs. Reverse
Voltage.
120
Diode Mounted as a
110 Series Attenuator
in a 50 Ohm Microstrip
100 and Tested at 123 MHz
90
80
HSMP-3810
70
HSMP-3830
60 HSMP-3830
50
40
1000
100
10
DIODE RF RESISTANCE (OHMS)
Figure 7. 2nd Harmonic Input
Intercept Point vs. Diode RF
Resistance for Attenuator Diodes.
120
Diode Mounted as a
115
Series Attenuator in a
50 Ohm Microstrip and
110 Tested at 123 MHz
105
HSMP-3880
100
HSMP-3820
95
HSMP-3830
90
HSMP-3890
85
1 10 30
IF – FORWARD BIAS CURRENT (mA)
Figure 8. 2nd Harmonic Input
Intercept Point vs. Forward Bias
Current for Switch Diodes.
100
HSMP-382X
10
VR = 2 V
VR = 5 V
VR = 10 V
1
10 20
FORWARD CURRENT (mA)
30
Figure 9. Reverse Recovery Time vs.
Forward Current for Various Reverse
Voltages. HSMP-3820 Series.



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