Found 200 matches (page 5 of 20)
98-B Rev.: B (03/15/12) M136201 File: 98-B.doc Sheet 1 of 1 This document and its contents are the property of Mini-Circuits Case Style B Notes: 1. Header material: C.R.S. Pin material: #52 alloy. Cover material: Cupro-Nickel. 2. Pin finish: Electro Tin-Silver. 3. Tolerance on pin diameter +/-.005 inch. 4. Glass meniscus 0.015 inch max. 5. Blue bead indicates Pin 1. Pin numbers do not appear on unit, for reference only. Outline Dimensions B02 B13 CASE# A B C D E F G H J K L WT, GRAM B02 .240
98-C Rev.: E 30 August 2018 M167787 (R93388) File: 98-C(E).doc Sheet 1 of 4 This document and its contents are the property of Mini-Circuits Case Style C Notes: 1. Header material: C.R.S. Pin material: #52 alloy. Cover material: Cupro-Nickel. 2. Pin finish: Electro Tin-Silver.. 3. Tolerance on pin diameter +/-.005 inch. 4. Glass meniscus 0.015 inch max. 5. Blue bead indicates Pin 1. Pin numbers do not appear on unit, for reference only. CASE# A B C D E F G H WT. GRAM C07 .770 (19.56) .810
98-C Rev.: E 30 August 2018 M167787 (R93388) File: 98-C(E).doc Sheet 3 of 4 This document and its contents are the property of Mini-Circuits Case Style C Notes: 1. Header material: C.R.S. Pin material: #52 alloy. Cover material: Cupro-Nickel. 2. Pin finish: Electro Tin-Silver. 3. Tolerance on pin diameter +/-.005 inch. 4. Glass meniscus 0.015 inch max. 5. Blue bead indicates Pin 1. Pin numbers do not appear on unit, for reference only. CASE# A B C D E F G H WT. GRAM C145 .770 (19.56) .810
98-D Rev.: B (03/15/12) M136201 File: 98-D.doc Sheet 1 of 1 This document and its contents are the property of Mini-Circuits Case Style D Notes: 1. Header material: C.R.S. Pin material: #52 alloy. Cover material: Cupro-Nickel. 2. Pin finish: Electro Tin-Silver. 3. Tolerance on pin diameter +/-.005 inch. 4. Glass meniscus 0.015 inch max. 5. Blue bead indicates Pin 1. Pin numbers do not appear on unit, for reference only. Outline Dimensions D08 D09 CASE# A B C D E F G H J K L M D08 .390 (9.91)
98-E Rev.: B (03/15/12) M136201 File: 98-E.doc Sheet 1 of 1 This document and its contents are the property of Mini-Circuits Case Style E Notes: 1. Header material: C.R.S. Pin material: #52 alloy. Cover material: Cupro-Nickel. 2. Pin finish: Electro Tin-Silver. 3. Tolerance on pin diameter +/-.005 inch. 4. Glass meniscus 0.015 inch max. 5. Blue bead Pins 4 & 5. Pin numbers do not appear on unit, for reference only. Outline Dimensions E10 CASE# A B C D E F G H J K L WT, GRAM E10 1.580 (40.13)
2. Finish: Electro-Tin, hot-oil flowed or electro-Tin-Silver. 3. Cover material: Cupro-Nickel. 4.
AVA-0233LN+ Typical Performance Curves 1. Gain is nominal when VC = Open. When VC is left floating, there
MMIC Amplifier AVA-183MP+ Typical Performance Curves Note: All data taken was at nominal conditions VDD = +8V, IDD = 160 mA, and VGG = -1.3V unless noted otherwise. For over temperature data, IDD is adjusted to 160 mA at each temperature specified. For over temperature data, IDD is adjusted to 160 Typical Performance Curves Note: All data taken was at nominal conditions VDD = +8V, IDD = 160 mA, and nominal conditions VDD = +8V, IDD = 160 mA, and VGG = -1.3V unless noted otherwise. For over
MMIC Amplifier AVA-2183+ Typical Performance Curves Note: All data taken was at nominal conditions VDD = +4V, IDD = 210 mA, and VGG = -0.52V unless noted otherwise. For over temperature data, IDD is adjusted to 210 mA at each temperature specified. For over temperature data, IDD is adjusted to 210 Performance Curves Note: All data taken was at nominal conditions VDD = +4V, IDD = 210 mA, and VGG = Amplifier AVA-2183+ Typical Performance Curves Note: All data taken was at nominal conditions VDD =
MMIC Amplifier AVA-5R183+ Typical Performance Curves Note: All data taken was at nominal conditions VDD = +5V, IDD = 85 mA, and VGG = -0.9V unless noted otherwise. For over temperature data, IDD is adjusted to 85 mA at each temperature specified. For over temperature data, IDD is adjusted to 85 mA Typical Performance Curves Note: All data taken was at nominal conditions VDD = +5V, IDD = 85 mA, and at nominal conditions VDD = +5V, IDD = 85 mA, and VGG = -0.9V unless noted otherwise. For over
