Surface Mount Voltage Variable Equalizer 5Ω 95 to 2 MHz The Big Deal Adjustable attenuation slope Supply voltage from + to + IP3 +55 dbm typical Minimal deviation from linear loss, ±.5dB CASE STYLE: HE1354 Product Overview The is a 5Ω Voltage Variable Equalizer built into a shielded case (size of.394 x.394 x. ).This model offers excellent performance over a wide frequency range of 95 to 2 MHz with the variable slope providing great flexibility in a small mm package. The is often used to compensate RF chain gain flatness or cable loss versus frequency. Key Features Feature Low power consumption: Supply voltage +3- DC at max ma Control voltage - at max ma Adjustable attenuation slope (Control voltage of to ) High linearity (IP3 +55 dbm typ.) Advantages Allows for high layout density of circuit boards, while minimizing affects of parasitics. Allows adjusting the slope to compensate for the precise loses encountered. Low distortion enabling improved system performance. Minimal deviation from linear loss over frequency range: ±.5dB Provides low signal distortion over the passband. Page 1 of 7
Surface Mount Voltage Variable Equalizer 5Ω 95 to 2 MHz Features Wide bandwidth Low deviation from linear loss, ±.5 db typ. High IP3 +55 dbm typ. Shielded case Aqueous washable CASE STYLE: HE1354 PRICE: $17.95 ea. QTY () Applications Cable loss compensation Instrumentation Satellite L Band +RoHS Compliant The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies and qualifications Electrical Specifications at 25 C, unless otherwise noted V+= V+= Parameter Condition Min. Typ. Max. Min. Typ. Max. Units Frequency Range 95 2 95 2 MHz Insertion Loss 95 MHz, Control Voltage, - 12.6-3.2 12.6-6.6 2 MHz, Control Voltage, - 5.9-6.3 6.1-7.7 db Deviation from Linear Loss 95-2 MHz, Control Voltage - ±.1 ±.5 db IP3 95-2 MHz, Control Voltage: 2 - +45 +55 +45 +55 dbm 1 db Compression 95-2 MHz, Control Voltage, - +3 +3 dbm Input Return Loss 95-2 MHz, Control Voltage, - 16 db Output Return Loss 95-2 MHz, Control Voltage, - 11 db Supply Current 95-2 MHz, Control Voltage,, 3 95-2 MHz, Control Voltage, 4 8 7 ma Control Current 95-2 MHz, Control Voltage, 5 3.5 6. 95-2 MHz, Control Voltage, Low 1.4.6 ma Note 1: Control Voltage Low is for V+= and for V+=. Maximum Ratings Parameter Ratings Operating Temperature -4 C to 85 C Storage Temperature -55 C to C Input Power +23 dbm Control voltage 12 V Supply Voltage (V+) 7 V Permanent damage may occur if any of these limits are exceeded. INPUT Simplified Functional Diagram FILTER ATTENUATOR OUTPUT Control Pad Connections Function Pad Number RF IN 1 RF OUT 6 V CONTROL 3 V+ 4 GROUND 2,5 Mini-Circuits REV. OR M141221 EDR-99 RAV 13627 Page 2 of 7
Voltage Variable Equalizer Outline Drawing TOP SIDE 6 5 4 SIDE VIEW PCB Land Pattern E INDEX 1 2 3 BOTTOM SIDE C E B 1 2 3 D M A H METALLIZATION J SOLDER RESIST L TYP. K TYP. 6 5 4 G Suggested Layout F Outline Dimensions ( inch mm ) A B C D E F G H J K L M wt..394.394..122.75.98.38.26.51.38.46.434 grams.1.1 3.81 3. 1.9 2.49.97.66 1.29.97 1.17 11.2.7 Demo Board MCL P/N: TB-474+ Suggested PCB Layout (PL-285) Pad Connections Function Pad Number RF IN 1 RF OUT 6 V CONTROL 3 V+ 4 GROUND 2,5 Mini-Circuits Page 3 of 7
Typical Performance Data @V+= 95 12.62 12.48 11.88 12.16.12 9.71.7.4 99.45 1.5 52.7 53.7 12.32 12.19 11.75 12.2 9.84 9.46.3.1 6.39 8.36 52.97 55.9 1 11.77 11.67 11.49 11.75 9.35 9.1.. 12.47 122.27 53.1 54.45 1 11.54 11.45 11.34 11.59 9.11 8.8.3.3 127.73 129.44 52.89 54.36 12 11.24 11. 11.25 11.5 8.91 8.61.1. 134.83 136.45 53.3 54.67 13.69.62 11.12 11.36 8.56 8.3.3.2 149.29.75 52.53 54. 14.16. 11.9 11.32 8.27 8.5.3.2 164.14 165.46 53.3 53.97 145 9.95 9.89 11.9 11.32 8.16 7.95.1.2 172. 173.41 53.43 53.73 9.61 9.56 11.11 11.35 8.5 7.86.5.4 179.45 179.37 53.53 53.75 16 9. 9.6 11.25 11.48 7.85 7.69.5.4 164.93 163.87 54.64 53. 165 8.86 8.81 11.31 11.54 7.75 7.61.3.2 6.52 5.51 53.98 52.86 17 8.56 8.52 11.41 11.64 7.7 7.57.6.6 148.88 147.93 53.85 52.55 18 8.7 8.4 11.62 11.85 7.56 7.46.2.2 132.3 131.47 52.1 52.45 185 7.79 7.76 11.66 11.88 7.41 7.33.5.5 123.5 122.73 52.18 52.66 19 7.56 7.53 11.87 12. 7.45 7.38.2.2 1.47 114.75 52.23 52.39 2 7. 7.8 11.79 12. 7.27 7.23.5.4 97.57 96.98 52.69 53.29 25 6.79 6.77 11.65 11.84 7.14 7.11.1.1 88.87 88.36 52.99 53.64 2 6.64 6.62 11.45 11.64 7.2 7.18.9.8 79.63 79.18 53.3 54.3 2 6.29 6.28 11.4 11.2 7.4 7.4.2.1 7.46 7.9 53.6 54.33 4. 4. 4. 4. 4. 95 7.6 6.62 3.6 26.56 16.59 17.49.5.5 135.26 138.73 52.81 55.71 7.58 6.61 31.24 28.17 16.44 17.58.3.3 142.52 146.2 53.31 59.5 1 7.55 6.62 31.47 32.71 16.8 17.65.1.1 6.98 161.5 53.33 58.83 1 7.55 6.64 3.24 35.93.86 17.59.2.2 164.23 168.48 53.23 57.74 12 7.52 6.64 29.39 39.94.7 17.61.1.2 171.5 175.96 53.13 56. 13 7.49 6.67 27.32 34.81.39 17.57.3.3 174.7 169.22 52.93 54.46 14 7.48 6.72 25.79 29.89.9 17.46.4.4 9.47 4.26 53.32 53.63 145 7.49 6.76 25.17 28.53 14.91 17.34.2.2 1.98 146.66 54.53 54.75 7.45 6.76 24.43 26.7 14.79 17.27.6. 144.83 139.31 56.6 55.26 16 7.45 6.86 23.7 24.95 14.46 16.91.4.4 13.14 124.33 58.16 58. 165 7.46 6.91 23.4 24.46 14.22 16.63.4. 122.6 116.71 56.74 57.45 17 7.45 6.95 22.96 23.58 14.7 16.44.4.4 1.57 9.52 54.32 57.14 18 7.48 7. 22.8 23.18 13.56.73...9 94.67 52.48 55.51 185 7.47 7.16 22.56 23.14 13.23.27.. 93.47 87.23 52.58 55.23 19 7.52 7.29 22.57 22.95 12.96 14.87.5.5 86.73 8.42 52.59 54.41 2 7.54 7.48 21.73 23.9 12.12 13.71.8.8 72.29 66.13 52.87 54.38 25 7.5 7.55 2.77 22.58 11.66 13.8.4.4 65.76 59.83 53.37 54.48 2 7.53 7.68 19.56 21.47 11.28 12.54.8.22 59.3 53.49 53.91 55.13 2 7.38 7.66 17.7 19.42.66 11.7.7.7 52.7 47.81 54.38 54.67 Mini-Circuits Page 4 of 7
Typical Performance Data @V+= 95 12.58 12.29.51.93 9.46 8.64.2.4 99.74 3.77 51.59 52.13 12.28 12.2.43.84 9.22 8.45..5 6.56 1.4 52.74 53.65 1 11.74 11.53.24.64 8.79 8..1.2 12.39 123.88 52.25 53.62 1 11.51 11.32.12.51 8.59 7.94.4.3 127.53 13.9 52.13 53.44 12 11.2 11.3.6.44 8.4 7.78.. 134.48 137.67 52.14 53.53 13.64.5 9.96.34 8.9 7.55.1. 148.71 1.58 51.78 52.9 14. 9.97 9.95.32 7.85 7.37.2.1 163.38 165.96 52.31 53.31 145 9.87 9.76 9.97.33 7.75 7.31.3.5 171.32 173.79 52.65 53.22 9.52 9.42..37 7.67 7.26.5.2 178.53 179. 52.97 53.43 16 8.99 8.89..52 7.52 7.17.4.2 165.97 163.88 53.68 52.96 165 8.73 8.64.21.58 7.45 7.12.2.1 7.63 5.65 53.26 52.65 17 8.43 8.35.31.67 7.43 7.13.6.4.1 148.16 52.66 52.2 18 7.91 7.84.56.92 7.38 7..3.2 133.49 131.85 51.99 51.7 185 7.62 7.55.64 11. 7.17 6.97.5.5 124.74 123.21 52. 52.1 19 7.37 7.3.87 11.23 7.35 7.17.3.3 116.64 1.24 51.9 51.9 2 6.88 6.82.94 11.29 7.23 7..3.2 98.74 97.57 52.43 52.94 25 6.57 6.51.87 11.2 6.99 6.9.2.3 89.89 88.85 52.75 53.21 2 6.41 6.35.84 11.16 7.19 7.12..7 8.64 79.72 53.45 53.73 2 6.6 6..56.86 6.99 6.95.2.1 71.41 7.65 53.39 53.74 95 7.87 3.18 2.26 17.32 13.59 12.97.2.2 134.78 149.7 52.2 53.3 7.85 3.23 2.1 17.57 13.35 12.85.17. 141.8 6.72 52.99 54.16 1 7.85 3.38 19.4 17.83 12.89 12.63.9.8 5.78 172.4 52.9 53.79 1 7.86 3.48 19.1 17.87 12.65 12.54.4.7 162.8 179.75 52.77 53.44 12 7.83 3.53 18.72 17.91 12.45 12.42.3.1 169.73 172.73 52.82 53.31 13 7.79 3.7 18.21 17.93 12. 12.28.2.4 176.43 7.61 52.39 52.4 14 7.75 3.87 17.87 17.72 11.91 12.16.6.9 162.43 142.41 52.76 52.21 145 7.75 3.99 17.73 17.57 11.8 12...9 5.13 134.5 54.24 53.22 7.67 4.6 17.56 17.24 11.73 12.3.6.13 148.37 127.26 55.39 53.26 16 7.62 4.28 17.44 16.63 11.56 11.89..14 134.21 112.5 58.68 56.24 165 7.59 4.4 17.37 16.32 11.44 11.75.11.14 126.89 4.26 57. 55.91 17 7.53 4.54 17.27.83 11.42 11.71.9.13 12.13 97.6 53.83 6.73 18 7.46 4.85 17.26.6 11.27 11.48.11.8 5.91 82. 52.55 54.92 185 7.39 4.98 17.18 14.71.89 11.12.8.8 98.67 74.74 52.55 54.4 19 7.35 5.23 17.24 14.3 11.5 11.17.8.1 92.7 67.84 52.13 53.61 2 7.21 5.62 16.86 13.43.57.54.2. 77.75 53.96 52.53 52.85 25 7.7 5.83 16.41 13..7.11.7.13 7.98 47.99 53.4 52.83 2 7.1 6..93 12.44.7 9.87.9.21 64.1 41.98 53.72 54.18 2 6.76 6.22 14.98 11.74 9.57 9.4.3.13 57.28 37.41 54.5 52.78 Mini-Circuits Page 5 of 7
Typical Performance Curves @V+= Insertion Loss (db) 14 12 8 6 INSERTION LOSS Vs. FREQUENCY 3. 4. 45 4 35 3 25 2 INPUT RETURN LOSS Vs. FREQUENCY 3. 4. 4 5 19 17 13 11 9 7 OUTPUT RETURN LOSS Vs. FREQUENCY 3. 4. Phase Unbalance (deg) 5 4 3 2 PHASE UNBALANCE Vs. FREQUENCY 3. 4. 5 Dev. From Lin. Loss (db).3.2.1. -.1 DEVIATION FROM LINEAR LOSS Vs. FREQUENCY 3. 4. IP3 (dbm) 6 58 56 54 52 IP3 Vs. FREQUENCY -.2 9 1 13 17 19 2 23 5 9 1 13 17 19 2 23 Frequency (MHz) Mini-Circuits Page 6 of 7
Typical Performance Curves @V+= Insertion 12 9 6 3 INSERTION LOSS Vs. FREQUENCY 2. 2. 25 21 17 13 9 INPUT RETURN LOSS Vs. FREQUENCY 2. 2. 5 16 14 12 8 OUTPUT RETURN LOSS Vs. FREQUENCY 2. 2. Phase Unbalance (deg) 75 6 45 3 PHASE UNBALANCE Vs. FREQUENCY 2. 2. 6.5 DEVIATION FROM LINEAR LOSS Vs. FREQUENCY 65 IP3 Vs. FREQUENCY Dev. From Lin. Loss (db).3.1 -.1 -.3 2. 2. IP3 (dbm) 62 59 56 53 -.5 9 1 13 17 19 2 23 5 9 1 13 17 19 2 23 Frequency (MHz) Mini-Circuits Page 7 of 7