AVT-51663
DC – 6000 MHz
InGaP HBT Gain Block
Data Sheet
Description Features
Avago Technologies’ AVT-51663 is an economical, easy- • Small signal gain amplifier
to-use, general purpose InGaP HBT MMIC gain block • Operating frequency DC to 6 GHz
amplifier utilizing Darlington pair configuration housed in • Unconditionally stable
a 6-lead (SOT-363) surface mount plastic package.
The Darlington feedback structure provides inherent • 50 Ohm input & output
broad bandwidth performance, resulting in useful ope- • Flat, Broadband Frequency Response up to 2 GHz
rating frequency up to 6 GHz. This is an ideal device for • Industry standard SOT-363
small-signal gain cascades or IF amplification. • Lead-free, RoHS compliant, Green
AVT-51663 is fabricated using advanced InGaP HBT
(Hetero-junction Bipolar Transistor) technology that Specifications
offers state-of-the-art reliability, temperature stability 2 GHz, 5V Vcc, 37mA (typical)
and performance consistency. • 19.6 dB Gain
Component Image • 12.9 dBm P1dB
• 25.1 dBm OIP3
Notes: • 3.2 dB NF
GND Output Package marking provides
& Vd orientation and identification • 10 dB IRL and ORL
GND 51X GND “51” = Device Code
“X” = Month of Manufacture Applications
“•” = Pin 1
Input GND • Cellular / PCS / 3G base station
Top View • Wireless Data / WLAN
• WiMAX / WiBRO
Typical Biasing Configuration • CATV & Cable modem
• ISM
VCC = 5V
Rbias Cbyp Cbyp Rbias = (VCC - Vd)/Id
Cblock Attention: Observe precautions for
RFin Pin 6 RFout handling electrostatic sensitive devices.
Pin 3 Vd ESD Machine Model = 160 V
Cblock ESD Human Body Model = 2000 V
Pin 1, 2, 4, 5 Refer to Avago Application Note A004R:
(GND) Electrostatic Discharge, Damage and Control.
�Absolute Maximum Rating[1] TA=25°C Thermal Resistance
Symbol Parameter Units Absolute Max. Thermal Resistance [2] θJB = 184°C/W
Id Device Current mA 70 (Id = 36 mA, TC = 85°C)
PIN,MAX CW RF Input Power dBm 15 Notes:
Total Power Dissipation [3] 1. Operation of this device in excess of any of
PDISS mW 284 these limits may cause permanent damage.
TOPT Operating Temperature °C -40 to 85 2. Thermal resistance measured using Infrared
measurement technique.
TJ,MAX Junction Temperature °C 150 3. Ground lead temperature is 25°C. Derate
TSTG Storage Temperature °C -65 to 150 5.5mW/°C for TC >98°C.
Electrical Specifications [1]
TA = 25°C, Zo = 50 Ω, VCC = 5 V, Rbias = 30 Ω, Pin = -15 dBm (unless specified otherwise)
Symbol Parameter and Test Condition Frequency Units Min. Typ. Max.
Id Device Current mA 33.0 36.4 40.0
Gp Power Gain 900 MHz dB 21.7
2000 MHz 18.0 19.6 21.0
OIP3 [2] Output 3rd Intercept Point 900 MHz dBm 25.8
2000 MHz 24.0 25.1
S11 Input Return Loss, 50Ω source 900 MHz dB -14.8
2000 MHz -10.8
S22 Output Return Loss, 50Ω load 900MHz dB -14.9
2000 MHz -11.8
S12 Reverse Isolation 900 MHz dB -24.1
2000 MHz -24.6
P1dB Output Power at 1dB Gain Compression 900 MHz dBm 13.3
2000 MHz 12.9
NF Noise Figure 900 MHz dB 2.8
2000 MHz 3.2
Notes:
1. Measurements obtained on CPWG line with reference plane at the ends of DUT leads (as shown in Figure 1).
2. OIP3 test condition: FRF1 - FRF2 = 10MHz with input power of -23 dBm per tone measured at worse side band.
2
� VCC
Rbias
Bias Tee
RFin Pin 6 RFout
Zo = 50 Ohm Zo = 50 Ohm
Pin 3
Pin 1, 2, 4, 5
(GND)
Figure 1. Block diagram of board used for Id, Gain, OIP3, S11, S22, S12, OP1dB and NF measurements.
Circuit losses have been de-embedded from actual measurements.
Product Consistency Distribution Charts at 2 GHz, Vcc = 5 V, Rbias = 30 Ω
LSL USL LSL USL
33 34 35 36 37 38 39 40 18 19 20 21
Figure 2. Id (mA) distribution. LSL = 33, Nominal = 36.4, USL = 40 Figure 3. Gain (dB) distribution. LSL = 18, Nominal = 19.6, USL = 21
LSL
Notes:
1. Statistical distribution determined from a sample size of 1500
samples taken from 3 different wafers from 2 wafer lots, measured on
a production test board.
2. Future wafers allocated to this product may have typical values
anywhere between the minimum and maximum specification limits.
24 25 26
Figure 4. OIP3 (dBm) distribution. LSL = 24, Nominal = 25.1
3
�AVT-51663 Typical Performance Curves
TA = 25°C, Zo = 50 Ω, Pin = -15 dBm (unless specified otherwise)
24 15
22 14
13
20 12
Gain (dB) 18 P1dB (dBm) 11
10
16 9
14 8
12 7
6
10 5
0 1 2 3 4 5 6 0 1 2 3 4 5 6
Frequency (GHz) Frequency (GHz)
Figure 5. Gain vs Frequency at Id = 37mA Figure 6. P1dB vs Frequency at Id = 37mA
28 6
26 5
24
OIP3 (dBm) 22 NF (dB) 4
20 3
18
16 2
14 0 1 2 3 4 5 6 1 0 1 2 3 4 5 6
Frequency (GHz) Frequency (GHz)
Figure 7. OIP3 vs Frequency at Id = 37mA, Pin=-23dBm Figure 8. NF vs Frequency at Id = 37mA
70
60 25°C
85°C
50 -40°C
Id (mA) 40
30
20
10
0
0 1 2 3 4 5 6
Vd (V)
Figure 9. Id vs Vd and Temperature
4
�AVT-51663 Typical Performance Curves
TA = 25°C, Zo = 50 Ω, Pin = -15 dBm (unless specified otherwise), continued
23 20
22
15
21 P1dB (dBm)
Gain (dB) 20 10
19
25°C 5 25°C
18 85°C 85°C
-40°C -40°C
17 0
10 20 30 40 50 10 20 30 40 50
Id (mA) Id (mA)
Figure 10. Gain vs Id and Temperature at 900 MHz Figure 11. P1dB vs Id and Temperature at 900 MHz
35 4.0
25°C
30 85°C
3.5 -40°C
OIP3 (dBm) 25 NF(dB)
3.0
20
15 25°C 2.5
85°C
-40°C
10 2.0
10 20 30 40 50 10 20 30 40 50
Id (mA) Id (mA)
Figure 12. OIP3 vs Id and Temperature at 900 MHz, Pin=-23dBm Figure 13. NF vs Id and Temperature at 900 MHz
21 20
20
15
19 P1dB (dBm)
Gain (dB) 18 10
17
25°C 5 25°C
16 85°C 85°C
-40°C -40°C
15 10 20 30 40 50 0 10 20 30 40 50
Id (mA) Id (mA)
Figure 14. Gain vs Id and Temperature at 2 GHz Figure 15. P1dB vs Id and Temperature at 2 GHz
5
�AVT-51663 Typical Performance Curves
TA = 25°C, Zo = 50 Ω, Pin = -15 dBm (unless specified otherwise), continued
35 4.0
30 3.5
OIP3 (dBm) 25 NF(dB)
3.0
20
15 25°C 2.5 25°C
85°C 85°C
-40°C -40°C
10 2.0
10 20 30 40 50 10 20 30 40 50
Id (mA) Id (mA)
Figure 16. OIP3 vs Id and Temperature at 2 GHz, Pin=-23dBm Figure 17. NF vs Id and Temperature at 2 GHz
24 20
22 0.05
0.9 0.05
0.9
20 15
2.0 2.0
2.5 2.5
Gain (dB) 18 3.0 P1dB (dBm) 3.0
16 4.0 10 4.0
14 5.0
5.0 6.0
12 5
10 6.0
8 0
10 20 30 40 50 10 20 30 40 50
Id (mA) Id (mA)
Figure 18. Gain vs Id and Frequency (GHz) Figure 19. P1dB vs Id and Frequency (GHz)
35 6.0
0.05 5.5 6.0
30 0.9 5.0
OIP3 (dBm) 2.0 4.5 5.0
2.5
25 NF (dB)
3.0 4.0 4.0
20 4.0 3.0
5.0 3.5 2.5
2.0
15 6.0 3.0 0.9
2.5 0.05
10 2.0
10 20 30 40 50 10 20 30 40 50
Id (mA) Id (mA)
Figure 20. OIP3 vs Id and Frequency (GHz), Pin=-23dBm Figure 21. NF vs Id and Frequency (GHz)
6
�AVT-51663 Typical Performance Curves
TA = 25°C, Zo = 50 Ω, Pin = -15 dBm (unless specified otherwise), continued
0 0
-5 -5
-10 -10
S11 (dB) -15 S22 (dB) -15
-20 -20
Id=20mA Id=20mA
-25 Id=37mA -25 Id=37mA
Id=45mA Id=45mA
-30 -30
0 2 4 6 8 10 0 2 4 6 8 10
Frequency (GHz) Frequency (GHz)
Figure 22. S11 vs Frequency and Id Figure 23. S22 vs Frequency and Id
7
�AVT-51663 Typical Scattering Parameters TA = 25°C, Zo = 50 Ω, Id = 20 mA, (unless specified otherwise)
Frequency S11 S21 S12 S22
GHz Mag Angle dB Mag Angle Mag Angle Mag Angle K
0.05 0.24 -0.7 20.4 10.51 177.2 0.07 -0.9 0.26 -2.2 1.0
0.1 0.24 -1.7 20.4 10.50 174.8 0.07 -1.4 0.26 -5.0 1.0
0.5 0.25 -11.5 20.2 10.21 154.5 0.07 -6.6 0.27 -25.0 1.0
0.9 0.29 -23.5 19.8 9.73 135.1 0.07 -11.0 0.30 -43.2 1.0
1.5 0.34 -43.5 19.0 8.89 107.3 0.07 -16.9 0.34 -69.4 1.1
2.0 0.36 -60.5 18.2 8.16 85.0 0.06 -21.3 0.35 -90.6 1.1
2.5 0.37 -78.0 17.4 7.43 63.6 0.06 -25.3 0.35 -111.0 1.1
3.0 0.37 -96.1 16.5 6.70 43.0 0.06 -28.9 0.36 -131.0 1.2
3.5 0.37 -115.4 15.6 6.00 23.0 0.06 -32.4 0.36 -150.8 1.2
4.0 0.37 -136.2 14.5 5.32 3.5 0.06 -35.8 0.38 -169.9 1.3
4.5 0.37 -157.4 13.3 4.64 -15.3 0.06 -39.0 0.40 173.0 1.4
5.0 0.39 -178.3 12.0 4.00 -32.9 0.06 -41.8 0.43 159.0 1.5
5.5 0.41 162.1 10.7 3.44 -49.5 0.06 -44.3 0.45 146.7 1.6
6.0 0.44 144.5 9.4 2.96 -65.2 0.06 -47.0 0.47 134.4 1.7
6.5 0.46 128.9 8.2 2.56 -80.0 0.06 -49.9 0.48 121.7 1.7
7.0 0.47 114.6 6.9 2.22 -94.2 0.07 -53.5 0.50 108.7 1.8
7.5 0.49 100.6 5.7 1.93 -107.9 0.07 -57.9 0.51 95.7 1.9
8.0 0.50 86.2 4.5 1.68 -121.3 0.07 -63.2 0.53 83.0 2.0
8.5 0.51 70.9 3.2 1.45 -134.5 0.08 -69.3 0.56 71.3 2.1
9.0 0.52 55.2 1.9 1.25 -147.2 0.08 -75.8 0.58 60.7 2.2
9.5 0.54 40.2 0.5 1.06 -159.3 0.08 -82.5 0.61 51.1 2.4
10.0 0.57 27.4 -0.9 0.90 -170.3 0.08 -88.9 0.63 42.2 2.5
10.5 0.60 17.7 -2.4 0.76 179.7 0.08 -94.8 0.65 33.4 2.7
11.0 0.62 10.7 -3.8 0.65 170.6 0.08 -100.3 0.67 24.7 2.9
11.5 0.64 4.7 -5.1 0.56 162.0 0.08 -105.9 0.68 15.5 3.1
12.0 0.65 -2.1 -6.4 0.48 153.2 0.08 -112.1 0.69 5.8 3.4
12.5 0.66 -10.4 -7.6 0.42 144.1 0.08 -119.0 0.71 -4.0 3.7
13.0 0.67 -20.0 -8.8 0.36 134.8 0.08 -126.6 0.72 -13.8 4.0
13.5 0.68 -30.9 -10.1 0.31 125.3 0.08 -134.9 0.73 -23.5 4.4
14.0 0.70 -42.5 -11.4 0.27 115.7 0.08 -143.7 0.74 -33.4 4.9
14.5 0.72 -53.6 -12.8 0.23 106.7 0.08 -152.0 0.75 -42.7 5.4
15.0 0.74 -62.7 -14.4 0.19 99.2 0.08 -159.2 0.77 -50.0 5.9
16.0 0.76 -75.1 -17.1 0.14 89.1 0.07 -169.4 0.80 -58.9 7.1
17.0 0.77 -84.2 -19.5 0.11 82.8 0.07 -177.9 0.81 -66.7 8.8
18.0 0.78 -92.2 -21.4 0.08 77.3 0.07 172.3 0.81 -77.7 10.8
19.0 0.78 -104.1 -23.4 0.07 69.5 0.07 158.6 0.81 -94.4 13.9
20.0 0.80 -119.5 -26.0 0.05 61.1 0.06 143.3 0.83 -112.5 17.9
Notes:
1. S-parameters are measured on a CPWG line fabricated on 0.025 inch thick Rogers® RO4350 material. The input reference plane is at the end of the
input lead. The output reference plane is at the end of the output lead.
8
�AVT-51663 Typical Scattering Parameters TA = 25°C, Zo = 50 Ω, Id = 37 mA, (unless specified otherwise)
Frequency S11 S21 S12 S22
GHz Mag Angle dB Mag Angle Mag Angle Mag Angle K
0.05 0.10 1.7 22.2 12.85 177.2 0.06 0.0 0.13 -2.3 1.0
0.1 0.10 3.1 22.2 12.82 174.5 0.06 -1.0 0.13 -5.9 1.0
0.5 0.13 2.7 21.9 12.40 153.3 0.06 -5.7 0.15 -29.1 1.0
0.9 0.18 -8.3 21.4 11.73 132.9 0.06 -9.8 0.18 -48.9 1.0
1.5 0.26 -31.2 20.4 10.51 103.9 0.06 -15.2 0.23 -76.3 1.1
2.0 0.29 -49.8 19.5 9.45 81.2 0.06 -19.2 0.26 -98.2 1.1
2.5 0.31 -68.7 18.5 8.42 59.8 0.06 -22.7 0.27 -119.0 1.2
3.0 0.32 -88.0 17.5 7.47 39.5 0.06 -25.8 0.29 -139.0 1.2
3.5 0.32 -108.4 16.4 6.60 19.9 0.06 -28.5 0.31 -158.8 1.3
4.0 0.32 -130.4 15.3 5.79 0.9 0.06 -31.1 0.33 -177.6 1.4
4.5 0.33 -152.9 14.0 5.04 -17.4 0.06 -33.6 0.37 166.0 1.5
5.0 0.35 -175.0 12.7 4.33 -34.7 0.06 -35.8 0.40 152.8 1.5
5.5 0.38 164.5 11.4 3.72 -51.0 0.06 -38.1 0.43 141.1 1.6
6.0 0.41 146.3 10.1 3.20 -66.5 0.06 -40.8 0.45 129.2 1.6
6.5 0.43 130.2 8.8 2.77 -81.2 0.06 -44.1 0.47 116.7 1.7
7.0 0.45 115.6 7.6 2.40 -95.3 0.07 -48.2 0.49 104.0 1.7
7.5 0.47 101.3 6.4 2.08 -109.0 0.07 -53.3 0.51 91.2 1.8
8.0 0.48 86.7 5.2 1.81 -122.3 0.08 -59.2 0.53 78.8 1.8
8.5 0.49 71.2 3.9 1.56 -135.4 0.08 -65.8 0.55 67.4 1.9
9.0 0.51 55.3 2.6 1.34 -148.1 0.08 -72.9 0.58 57.1 2.0
9.5 0.53 40.1 1.2 1.14 -160.1 0.08 -80.1 0.61 47.8 2.1
10.0 0.56 27.2 -0.3 0.97 -171.1 0.09 -86.9 0.63 39.1 2.3
10.5 0.59 17.5 -1.7 0.82 178.9 0.09 -93.2 0.65 30.6 2.4
11.0 0.62 10.4 -3.1 0.70 169.8 0.09 -99.1 0.66 22.1 2.6
11.5 0.64 4.3 -4.4 0.60 161.1 0.09 -105.1 0.68 13.2 2.8
12.0 0.65 -2.5 -5.7 0.52 152.3 0.09 -111.6 0.69 3.6 3.0
12.5 0.66 -10.8 -6.9 0.45 143.1 0.09 -118.7 0.70 -6.1 3.3
13.0 0.67 -20.5 -8.1 0.39 133.8 0.09 -126.5 0.72 -15.7 3.6
13.5 0.68 -31.5 -9.4 0.34 124.1 0.09 -134.9 0.73 -25.4 4.0
14.0 0.69 -43.1 -10.7 0.29 114.4 0.09 -143.7 0.74 -35.2 4.4
14.5 0.71 -54.1 -12.1 0.25 105.3 0.08 -152.2 0.75 -44.3 4.9
15.0 0.73 -63.2 -13.6 0.21 97.6 0.08 -159.4 0.77 -51.6 5.4
16.0 0.76 -75.7 -16.4 0.15 87.0 0.07 -169.8 0.80 -60.3 6.5
17.0 0.77 -85.0 -18.7 0.12 79.9 0.07 -178.4 0.81 -67.9 8.0
18.0 0.77 -93.2 -20.6 0.09 73.6 0.07 171.6 0.81 -78.9 10.0
19.0 0.78 -104.8 -22.7 0.07 65.1 0.07 158.1 0.80 -95.5 12.9
20.0 0.79 -120.2 -25.4 0.05 55.7 0.06 142.9 0.83 -113.5 17.0
Notes:
1. S-parameters are measured on a CPWG line fabricated on 0.025 inch thick Rogers® RO4350 material. The input reference plane is at the end of the
input lead. The output reference plane is at the end of the output lead.
9
�AVT-51663 Typical Scattering Parameters TA = 25°C, Zo = 50 Ω, Id = 45 mA, (unless specified otherwise)
Frequency S11 S21 S12 S22
GHz Mag Angle dB Mag Angle Mag Angle Mag Angle K
0.05 0.07 3.4 22.5 13.37 177.2 0.06 -0.3 0.10 -2.5 1.0
0.1 0.07 6.5 22.5 13.34 174.5 0.06 -1.0 0.10 -6.4 1.0
0.5 0.11 9.9 22.2 12.89 153.1 0.06 -5.4 0.12 -30.5 1.0
0.9 0.16 -1.9 21.7 12.17 132.5 0.06 -9.3 0.15 -50.5 1.0
1.5 0.24 -27.4 20.7 10.87 103.3 0.06 -14.7 0.21 -77.8 1.1
2.0 0.28 -46.7 19.8 9.74 80.6 0.06 -18.6 0.23 -99.6 1.1
2.5 0.30 -66.2 18.7 8.65 59.2 0.06 -22.0 0.26 -120.4 1.2
3.0 0.31 -85.9 17.7 7.65 38.9 0.06 -25.0 0.27 -140.4 1.2
3.5 0.31 -106.7 16.6 6.75 19.4 0.06 -27.7 0.29 -160.1 1.3
4.0 0.31 -129.0 15.4 5.92 0.5 0.06 -30.2 0.32 -178.8 1.4
4.5 0.32 -151.9 14.2 5.14 -17.7 0.06 -32.5 0.36 164.9 1.5
5.0 0.34 -174.3 12.9 4.43 -34.9 0.06 -34.7 0.39 151.8 1.5
5.5 0.37 164.9 11.6 3.80 -51.2 0.06 -37.0 0.42 140.4 1.6
6.0 0.40 146.5 10.3 3.27 -66.7 0.06 -39.7 0.45 128.4 1.6
6.5 0.43 130.3 9.0 2.83 -81.4 0.06 -43.1 0.47 116.0 1.7
7.0 0.45 115.6 7.8 2.45 -95.5 0.07 -47.3 0.48 103.3 1.7
7.5 0.46 101.3 6.6 2.13 -109.1 0.07 -52.5 0.50 90.5 1.7
8.0 0.48 86.6 5.3 1.85 -122.5 0.08 -58.5 0.53 78.2 1.8
8.5 0.49 71.0 4.1 1.60 -135.6 0.08 -65.3 0.55 66.8 1.9
9.0 0.50 55.1 2.8 1.37 -148.3 0.08 -72.5 0.58 56.5 2.0
9.5 0.53 39.9 1.4 1.17 -160.3 0.09 -79.8 0.60 47.2 2.1
10.0 0.56 27.0 -0.1 0.99 -171.3 0.09 -86.7 0.63 38.5 2.2
10.5 0.59 17.3 -1.5 0.84 178.7 0.09 -93.1 0.65 30.1 2.4
11.0 0.62 10.2 -2.9 0.72 169.6 0.09 -99.0 0.66 21.6 2.5
11.5 0.63 4.1 -4.2 0.62 160.8 0.09 -105.0 0.68 12.7 2.7
12.0 0.64 -2.8 -5.5 0.53 151.9 0.09 -111.6 0.69 3.2 3.0
12.5 0.65 -11.1 -6.7 0.46 142.8 0.09 -118.8 0.70 -6.6 3.2
13.0 0.66 -20.9 -7.9 0.40 133.3 0.09 -126.6 0.72 -16.2 3.5
13.5 0.68 -31.8 -9.2 0.35 123.6 0.09 -135.1 0.73 -25.8 3.9
14.0 0.69 -43.4 -10.5 0.30 113.9 0.09 -143.9 0.74 -35.6 4.3
14.5 0.71 -54.4 -11.9 0.25 104.7 0.08 -152.4 0.75 -44.7 4.8
15.0 0.73 -63.5 -13.4 0.21 97.0 0.08 -159.6 0.77 -52.0 5.2
16.0 0.76 -76.1 -16.1 0.16 86.1 0.07 -170.1 0.80 -60.6 6.3
17.0 0.77 -85.4 -18.4 0.12 78.8 0.07 -178.8 0.81 -68.3 7.8
18.0 0.77 -93.7 -20.4 0.10 72.1 0.07 171.2 0.80 -79.3 9.8
19.0 0.78 -105.2 -22.4 0.08 63.3 0.07 157.7 0.80 -95.9 12.7
20.0 0.79 -120.6 -25.2 0.06 53.8 0.06 142.6 0.82 -113.9 16.7
Notes:
1. S-parameters are measured on a CPWG line fabricated on 0.025 inch thick Rogers® RO4350 material. The input reference plane is at the end of the
input lead. The output reference plane is at the end of the output lead.
10
�Part Number Ordering Information
Part Number No. of Devices Container
AVT-51663-TR1G 3000 7” Reel
AVT-51663-BLKG 100 Antistatic bag
Package Dimensions Recommended PCB Pad Layout for
Outline 63 (SOT-363/SC-70) Avago’s SC70 6L/SOT-363 Products
0.026
HE E
0.079
e 0.039
D
0.018 Dimensions in inches.
Q1
A2 A
A1 c
b L
Dimensions (mm) Notes:
1. All dimensions are in mm.
Symbol Min Max 2. Dimensions are inclusive of plating.
E 1.15 1.35 3. Dimensions are exclusive of mold flash & metal burr.
4. All specifications comply to EIAJSC70.
D 1.80 2.25 5. Die is facing up for mold and facing down for trim/form,
ie: reverse trim/form.
HE 1.80 2.40 6. Package surface to be mirror finish. 0.650BCS.
A 0.80 1.10
A2 0.80 1.00
A1 0.00 0.10
Q1 0.10 0.40
e 0.65
b 0.15 0.30
c 0.08 0.25
L 0.10 0.46
11
�Device Orientation
REEL TOP VIEW END VIEW
4 mm
8 mm 51X 51X 51X 51X
CARRIER
TAPE
USER
FEED
DIRECTION
COVER TAPE
Tape Dimensions and Product Orientation for Outline 63
P D P2
P0
E
F
W
C
t1 (CARRIER TAPE THICKNESS) D1 Tt (COVER TAPE THICKNESS)
10° MAX. KO 10° MAX.
A0 B0
DESCRIPTION SYMBOL SIZE (mm) SIZE (INCHES)
CAVITY LENGTH A0 2.40 ± 0.10 0.094 ± 0.004
WIDTH B0 2.40 ± 0.10 0.094 ± 0.004
DEPTH K0 1.20 ± 0.10 0.047 ± 0.004
PITCH P 4.00 ± 0.10 0.157 ± 0.004
BOTTOM HOLE DIAMETER D1 1.00 + 0.25 0.039 + 0.010
PERFORATION DIAMETER D 1.55 ± 0.05 0.061 ± 0.002
PITCH P0 4.00 ± 0.10 0.157 ± 0.004
POSITION E 1.75 ± 0.10 0.069 ± 0.004
CARRIER TAPE WIDTH W 8.00 ± 0.30 0.315 ± 0.012
THICKNESS t1 0.254 ± 0.02 0.0100 ± 0.0008
COVER TAPE WIDTH C 5.4 ± 0.10 0.205 ± 0.004
TAPE THICKNESS Tt 0.062 ± 0.001 0.0025 ± 0.0004
DISTANCE CAVITY TO PERFORATION F 3.50 ± 0.05 0.138 ± 0.002
(WIDTH DIRECTION)
CAVITY TO PERFORATION P2 2.00 ± 0.05 0.079 ± 0.002
(LENGTH DIRECTION)
12
�Reel Dimension 7 inch
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Data subject to change. Copyright © 2005-2010 Avago Technologies. All rights reserved.
AV02-2358EN - March 11 , 2010
�Mouser Electronics
Authorized Distributor
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Avago Technologies:
AVT-51663-BLKG
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