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 Surface Mount RF Schottky Barrier Diodes Technical Data
HSMS-281x Series
Features
* Surface Mount Packages * Low Flicker Noise * Low FIT (Failure in Time) Rate* * Six-sigma Quality Level * Single, Dual and Quad Versions * Tape and Reel Options Available * Lead-free Option Available
Package Lead Code Identification, SOT-23/SOT-143 (Top View) COMMON COMMON
SINGLE 3 SERIES 3 ANODE 3 CATHODE 3
1
#0
2
1
#2
2
1
#3
2
1
#4
2
UNCONNECTED PAIR 3 4
RING QUAD 3 4
BRIDGE QUAD 3 4
1
* For more information see the Surface Mount Schottky Reliability Data Sheet.
#5
2
1
#7
2
1
#8
2
Description/Applications
These Schottky diodes are specifically designed for both analog and digital applications. This series offers a wide range of specifications and package configurations to give the designer wide flexibility. The HSMS-281x series of diodes features very low flicker (1/f) noise. Note that Agilent's manufacturing techniques assure that dice found in pairs and quads are taken from adjacent sites on the wafer, assuring the highest degree of match.
Package Lead Code Identification, SOT-323 (Top View)
SINGLE SERIES
Package Lead Code Identification, SOT-363 (Top View)
HIGH ISOLATION UNCONNECTED PAIR
6 5 4
UNCONNECTED TRIO
6 5 4
B COMMON ANODE
C COMMON CATHODE
1
2
3
K
1
2
3
L
Pin Connections and Package Marking
E F
1 2 3 6 5 4
Notes: 1. Package marking provides orientation and identification. 2. See "Electrical Specifications" for appropriate package marking.
GUx
2
Absolute Maximum Ratings[1] TC = 25C
Symbol If PIV Tj Tstg jc Parameter Forward Current (1 s Pulse) Peak Inverse Voltage Junction Temperature Storage Temperature Thermal Resistance[2] Unit Amp V C C C/W SOT-23/SOT-143 1 Same as VBR 150 -65 to 150 500 SOT-323/SOT-363 1 Same as VBR 150 -65 to 150 150
Notes: 1. Operation in excess of any one of these conditions may result in permanent damage to the device. 2. TC = +25C, where TC is defined to be the temperature at the package pins where contact is made to the circuit board. ESD WARNING: Handling Precautions Should Be Taken To Avoid Static Discharge.
Electrical Specifications TC = 25C, Single Diode[4]
Part Package Number Marking Lead HSMS[5] Code Code 2810 2812 2813 2814 2815 2817 2818 281B 281C 281E 281F 281K 281L B0[3] B2[3] B3[3] B4[3] B5[3] B7[3] B8[3] B0[7] B2[7] B3[7] B4[7] BK[7] BL[7] 0 2 3 4 5 7 8 B C E F K L Minimum Maximum Breakdown Forward Voltage Voltage VBR (V) VF (mV) 20 400 Maximum Forward Voltage VF (V) @ IF (mA) 1.0 35 Maximum Reverse Typical Leakage Maximum Dynamic IR (nA) @ Capacitance Resistance VR (V) CT (pF) RD () [6] 200 15 1.2 15
Configuration Single Series Common Anode Common Cathode Unconnected Pair Ring Quad[5] Bridge Quad[5] Single Series Common Anode Common Cathode High Isolation Unconnected Pair Unconnected Trio
Test Conditions
IR = 10 A
IF = 1 mA
VF = 0 V f = 1 MHz
IF = 5 mA
Notes: 1. VF for diodes in pairs and quads in 15 mV maximum at 1 mA. 2. C TO for diodes in pairs and quads is 0.2 pF maximum. 3. Package marking code is in white. 4. Effective Carrier Lifetime () for all these diodes is 100 ps maximum measured with Krakauer method at 5 mA. 5. See section titled "Quad Capacitance." 6. R D = R S + 5.2 at 25C and I f = 5 mA. 7. Package marking code is laser marked.
3
Quad Capacitance
Capacitance of Schottky diode quads is measured using an HP4271 LCR meter. This instrument effectively isolates individual diode branches from the others, allowing accurate capacitance measurement of each branch or each diode. The conditions are: 20 mV R.M.S. voltage at 1 MHz. Agilent defines this measurement as "CM", and it is equivalent to the capacitance of the diode by itself. The equivalent diagonal and adjacent capacitances can then be calculated by the formulas given below.
In a quad, the diagonal capacitance is the capacitance between points A and B as shown in the figure below. The diagonal capacitance is calculated using the following formula C1 x C2 C3 x C4 CDIAGONAL = _______ + _______ C1 + C2 C3 + C4
A C1 C C2 C4 B C3
The equivalent adjacent capacitance is the capacitance between points A and C in the figure below. This capacitance is calculated using the following formula 1 CADJACENT = C1 + ____________ 1 1 1 -- + -- + -- C2 C 3 C4
Linear Equivalent Circuit, Diode Chip
Rj RS
SPICE Parameters
Parameter Units BV CJ0 EG IBV IS N RS PB PT M V pF eV A A V HSMS-281x 25 1.1 0.69 E-5 4.8E - 9 1.08 10 0.65 2 0.5
Cj
RS = series resistance (see Table of SPICE parameters) C j = junction capacitance (see Table of SPICE parameters) Rj = 8.33 X 10-5 nT Ib + Is
where Ib = externally applied bias current in amps Is = saturation current (see table of SPICE parameters) T = temperature, K n = ideality factor (see table of SPICE parameters) Note: To effectively model the packaged HSMS-281x product, please refer to Application Note AN1124.
4
Typical Performance, TC = 25C (unless otherwise noted), Single Diode
100
I F - FORWARD CURRENT (mA)
100,000
RD - DYNAMIC RESISTANCE ()
1000
10,000
I R - REVERSE CURRENT (nA)
10
100
1000
1
100
0.1
0.01 0
TA = +125C TA = +75C TA = +25C TA = -25C 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 VF - FORWARD VOLTAGE (V)
10
10 1 0 5
TA = +125C TA = +75C TA = +25C 10 15
1 0.1
1
10
100
VR - REVERSE VOLTAGE (V)
I F - FORWARD CURRENT (mA)
Figure 1. Forward Current vs. Forward Voltage at Temperatures.
Figure 2. Reverse Current vs. Reverse Voltage at Temperatures.
Figure 3. Dynamic Resistance vs. Forward Current.
1.25
IF - FORWARD CURRENT (mA)
30
30
1
10
IF (Left Scale)
10
0.75
0.50
VF (Right Scale) 1 1
0.25
0 0 2 4 6 8 10 12 14 16 VR - REVERSE VOLTAGE (V)
0.3 0.2
0.4
0.6
0.8
1.0
1.2
0.3 1.4
VF - FORWARD VOLTAGE (V)
Figure 4. Total Capacitance vs. Reverse Voltage.
Figure 5. Typical Vf Match, Pairs and Quads.
VF - FORWARD VOLTAGE DIFFERENCE (mV)
C T - CAPACITANCE (pF)
5
Applications Information
Introduction -- Product Selection
Agilent's family of Schottky products provides unique solutions to many design problems. The first step in choosing the right product is to select the diode type. All of the products in the HSMS-282x family use the same diode chip, and the same is true of the HSMS-281x and HSMS-280x families. Each family has a different set of characteristics which can be compared most easily by consulting the SPICE parameters in Table 1. A review of these data shows that the HSMS-280x family has the highest breakdown voltage, but at the expense of a high value of series resistance (Rs). In applications which do not require high voltage the HSMS-282x family, with a lower value of series
resistance, will offer higher current carrying capacity and better performance. The HSMS281x family is a hybrid Schottky (as is the HSMS-280x), offering lower 1/f or flicker noise than the HSMS-282x family. In general, the HSMS-282x family should be the designer's first choice, with the -280x family reserved for high voltage applications and the HSMS-281x family for low flicker noise applications.
0.026
0.07 0.035
0.016
Figure 6. PCB Pad Layout (dimensions in inches).
Assembly Instructions
SOT-323 PCB Footprint
A recommended PCB pad layout for the miniature SOT-323 (SC-70) package is shown in Figure 6 (dimensions are in inches). This layout provides ample allowance for package placement by automated assembly equipment without adding parasitics that could impair the performance.
Assembly Instructions
SOT-363 PCB Footprint
A recommended PCB pad layout for the miniature SOT-363 (SC-70, 6 lead) package is shown in Figure 7 (dimensions are in inches). This layout provides ample allowance for package placement by automated assembly equipment without adding parasitics that could impair the performance.
0.026
Table 1. Typical SPICE Parameters.
Parameter BV CJ0 EG IBV IS N RS PB (VJ) PT (XTI) M
Units V pF eV A A V
HSMS-280x 75 1.6 0.69 1 E-5 3 E-8 1.08 30 0.65 2 0.5
HSMS-281x 25 1.1 0.69 1 E-5 4.8 E-9 1.08 10 0.65 2 0.5
HSMS-282x 15 0.7 0.69 1 E-4 2.2 E-8 1.08 6.0 0.65 2 0.5
0.075
0.035
0.016
Figure 7. PCB Pad Layout (dimensions in inches).
6
SMT Assembly
Reliable assembly of surface mount components is a complex process that involves many material, process, and equipment factors, including: method of heating (e.g., IR or vapor phase reflow, wave soldering, etc.) circuit board material, conductor thickness and pattern, type of solder alloy, and the thermal conductivity and thermal mass of components. Components with a low mass, such as the SOT package, will reach solder reflow temperatures faster than those with a greater mass. Agilent's SOT diodes have been qualified to the time-temperature profile shown in Figure 8. This profile is representative of an IR reflow type of surface mount assembly process.
After ramping up from room temperature, the circuit board with components attached to it (held in place with solder paste) passes through one or more preheat zones. The preheat zones increase the temperature of the board and components to prevent thermal shock and begin evaporating solvents from the solder paste. The reflow zone briefly elevates the temperature sufficiently to produce a reflow of the solder. The rates of change of temperature for the ramp-up and cooldown zones are chosen to be low enough to not cause deformation of the board or damage to components due to thermal shock. The maximum temperature in the reflow zone (TMAX) should not exceed 235C.
These parameters are typical for a surface mount assembly process for Agilent diodes. As a general guideline, the circuit board and components should be exposed only to the minimum temperatures and times necessary to achieve a uniform reflow of solder.
250 TMAX 200
TEMPERATURE (C)
150 Reflow Zone 100 Preheat Zone 50 0 0 60 120 180 240 300 TIME (seconds) Cool Down Zone
Figure 8. Surface Mount Assembly Profile.
7
Part Number Ordering Information
Part Number HSMS-281x-TR2* HSMS-281x-TR1* HSMS-281x-BLK * No. of Devices 10000 3000 100 Container 13" Reel 7" Reel antistatic bag
x = 0, 2, 3, 4, 5, 7, 8, B, C, E, F, K, L For lead-free option, the part number will have the character "G" at the end, eg. HSMS-281x-TR2G for a 10,000 lead-free reel.
Package Dimensions
Outline 23 (SOT-23)
1.02 (0.040) 0.89 (0.035) 0.54 (0.021) 0.37 (0.015) 3 1.40 (0.055) 1.20 (0.047) 2
0.650 BSC (0.025)
Outline SOT-323 (SC-70 3 Lead)
DATE CODE (X)
PACKAGE MARKING CODE (XX) 1.30 (0.051) REF. DATE CODE (X)
PACKAGE MARKING CODE (XX)
XXX
2.65 (0.104) 2.10 (0.083)
2.20 (0.087) 2.00 (0.079)
XXX
1.35 (0.053) 1.15 (0.045)
1 0.60 (0.024) 0.45 (0.018)
2.04 (0.080) 1.78 (0.070) TOP VIEW 0.152 (0.006) 0.066 (0.003) 1.02 (0.041) 0.85 (0.033)
0.10 (0.004) 0.00 (0.00)
2.20 (0.087) 1.80 (0.071)
0.425 (0.017) TYP.
0.30 REF.
3.06 (0.120) 2.80 (0.110)
0.25 (0.010) 0.15 (0.006)
1.00 (0.039) 0.80 (0.031)
10
0.30 (0.012) 0.10 (0.004)
0.20 (0.008) 0.10 (0.004)
0.10 (0.004) 0.013 (0.0005) SIDE VIEW DIMENSIONS ARE IN MILLIMETERS (INCHES)
0.69 (0.027) 0.45 (0.018)
DIMENSIONS ARE IN MILLIMETERS (INCHES)
END VIEW
Outline 143 (SOT-143)
0.92 (0.036) 0.78 (0.031) DATE CODE (X) 2 PACKAGE MARKING CODE (XX) 1
Outline SOT-363 (SC-70 6 Lead)
PACKAGE MARKING CODE (XX) 1.30 (0.051) REF. DATE CODE (X)
XXX
1.40 (0.055) 1.20 (0.047) 3
2.65 (0.104) 2.10 (0.083)
2.20 (0.087) 2.00 (0.079)
XXX
1.35 (0.053) 1.15 (0.045)
4
0.60 (0.024) 0.45 (0.018) 2.04 (0.080) 1.78 (0.070) 3.06 (0.120) 2.80 (0.110)
0.54 (0.021) 0.37 (0.015)
0.650 BSC (0.025) 2.20 (0.087) 1.80 (0.071)
0.15 (0.006) 0.09 (0.003)
0.425 (0.017) TYP.
0.10 (0.004) 0.00 (0.00)
0.30 REF.
1.04 (0.041) 0.85 (0.033) 0.10 (0.004) 0.013 (0.0005) DIMENSIONS ARE IN MILLIMETERS (INCHES) 0.69 (0.027) 0.45 (0.018)
1.00 (0.039) 0.80 (0.031) 0.25 (0.010) 0.15 (0.006)
10
0.30 (0.012) 0.10 (0.004)
0.20 (0.008) 0.10 (0.004)
DIMENSIONS ARE IN MILLIMETERS (INCHES)
8
Device Orientation
REEL
For Outlines SOT-23, -323
TOP VIEW 4 mm END VIEW
CARRIER TAPE USER FEED DIRECTION COVER TAPE
8 mm
ABC
ABC
ABC
ABC
Note: "AB" represents package marking code. "C" represents date code.
For Outline SOT-143
TOP VIEW 4 mm END VIEW
For Outline SOT-363
TOP VIEW 4 mm END VIEW
8 mm
ABC
ABC
ABC
ABC
8 mm
ABC
ABC
ABC
ABC
Note: "AB" represents package marking code. "C" represents date code.
Note: "AB" represents package marking code. "C" represents date code.
9
Tape Dimensions and Product Orientation
For Outline SOT-23
P D
P2
E
P0
F W
t1
D1
9 MAX
Ko
8 MAX
13.5 MAX
A0
B0
DESCRIPTION CAVITY LENGTH WIDTH DEPTH PITCH BOTTOM HOLE DIAMETER DIAMETER PITCH POSITION WIDTH THICKNESS CAVITY TO PERFORATION (WIDTH DIRECTION) CAVITY TO PERFORATION (LENGTH DIRECTION)
SYMBOL A0 B0 K0 P D1 D P0 E W t1 F P2
SIZE (mm) 3.15 0.10 2.77 0.10 1.22 0.10 4.00 0.10 1.00 + 0.05 1.50 + 0.10 4.00 0.10 1.75 0.10 8.00 +0.30 -0.10 0.229 0.013 3.50 0.05 2.00 0.05
SIZE (INCHES) 0.124 0.004 0.109 0.004 0.048 0.004 0.157 0.004 0.039 0.002 0.059 + 0.004 0.157 0.004 0.069 0.004 0.315 +0.012 -0.004 0.009 0.0005 0.138 0.002 0.079 0.002
PERFORATION
CARRIER TAPE
DISTANCE BETWEEN CENTERLINE
For Outline SOT-143
P P0 D P2 E F W
D1 t1
9 MAX
K0
9 MAX
A0
DESCRIPTION CAVITY LENGTH WIDTH DEPTH PITCH BOTTOM HOLE DIAMETER DIAMETER PITCH POSITION WIDTH THICKNESS CAVITY TO PERFORATION (WIDTH DIRECTION) CAVITY TO PERFORATION (LENGTH DIRECTION) SYMBOL A0 B0 K0 P D1 D P0 E W t1 F P2 SIZE (mm) 3.19 0.10 2.80 0.10 1.31 0.10 4.00 0.10 1.00 + 0.25 1.50 + 0.10 4.00 0.10 1.75 0.10
B0
SIZE (INCHES) 0.126 0.004 0.110 0.004 0.052 0.004 0.157 0.004 0.039 + 0.010 0.059 + 0.004 0.157 0.004 0.069 0.004 0.315+0.012 -0.004 0.0100 0.0005 0.138 0.002 0.079 0.002
PERFORATION
CARRIER TAPE DISTANCE
8.00 +0.30 -0.10 0.254 0.013 3.50 0.05 2.00 0.05
Tape Dimensions and Product Orientation
For Outlines SOT-323, -363
P P0 D P2
E
F W C
D1 t1 (CARRIER TAPE THICKNESS) Tt (COVER TAPE THICKNESS)
An
K0
An
A0
B0
DESCRIPTION CAVITY LENGTH WIDTH DEPTH PITCH BOTTOM HOLE DIAMETER DIAMETER PITCH POSITION WIDTH THICKNESS WIDTH TAPE THICKNESS CAVITY TO PERFORATION (WIDTH DIRECTION) CAVITY TO PERFORATION (LENGTH DIRECTION) ANGLE FOR SOT-323 (SC70-3 LEAD) FOR SOT-363 (SC70-6 LEAD)
SYMBOL A0 B0 K0 P D1 D P0 E W t1 C Tt F P2 An
SIZE (mm) 2.40 0.10 2.40 0.10 1.20 0.10 4.00 0.10 1.00 + 0.25 1.55 0.05 4.00 0.10 1.75 0.10 8.00 0.30 0.254 0.02 5.4 0.10 0.062 0.001 3.50 0.05 2.00 0.05 8C MAX 10C MAX
SIZE (INCHES) 0.094 0.004 0.094 0.004 0.047 0.004 0.157 0.004 0.039 + 0.010 0.061 0.002 0.157 0.004 0.069 0.004 0.315 0.012 0.0100 0.0008 0.205 0.004 0.0025 0.00004 0.138 0.002 0.079 0.002
PERFORATION
CARRIER TAPE COVER TAPE DISTANCE
www.agilent.com/semiconductors
For product information and a complete list of distributors, please go to our web site. For technical assistance call: Americas/Canada: +1 (800) 235-0312 or (916) 788-6763 Europe: +49 (0) 6441 92460 China: 10800 650 0017 Hong Kong: (65) 6756 2394 India, Australia, New Zealand: (65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/International), or 0120-61-1280(Domestic Only) Korea: (65) 6755 1989 Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (65) 6755 2044 Taiwan: (65) 6755 1843 Data subject to change. Copyright (c) 2004 Agilent Technologies, Inc. Obsoletes 5968-7649E March 24, 2004 5989-0475EN


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