TX 400M 120 Search Results

bf331

Abstract: tc2576m 5724E n12a PADESD100
Contextual Info: MAX3800 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low Voltage Differential Signal (LVDS) formats to transfer data

321f

Abstract: bf331 236f 724E-020 HFAN-06 455e diode 699n 250N MAX3640 MAX3801
Contextual Info: Application Note: HFAN-06.1 Rev 1, 11/07 Input/Output Models for Maxim Fiber Components Maxim High-Frequency/Fiber Communications Group Maxim Integrated Products 9hfan61_old_63.doc 11/13/07 Input/Output Models for Maxim Fiber Components 1 Abstract The objective of this note is to discuss the use of

mje 3003

Abstract: 02n60p mje 3001 MJE I 3004 h11m XQ22 2996M
Contextual Info: MAX3891 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low

vcsel spice model

Contextual Info: MAX3996 I/O Model 2.5Gbps VCSEL Driver SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and

2996M

Abstract: H12A05 transistor 1002 transistor BF 502
Contextual Info: MAX3750 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low Voltage Differential Signal (LVDS) formats to transfer data

H12A05

Contextual Info: MAX3269 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low

1159m

Contextual Info: MAX3268 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low

TC221

Abstract: M400
Contextual Info: MAX3664EUA I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and

BR 115N

Abstract: SPICE 2G6 xds npn
Contextual Info: MAX3296 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic

ic 2101

Contextual Info: MAX3286 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic

XQ22

Abstract: BR924 KL1012 XQ20 H12A05 KL-23
Contextual Info: MAX3265 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low

C312 diode

Abstract: 2SC3238A BLY87A 2SC2983Y BLW80 2SC731 BSS42 2SD1220Y acrian acrian inc
Contextual Info: RF POWER SILICON NPN Item Number Part Number I C 5 10 >= 20 40665 2N5215 C2-8Z C3-12 2SC1947 2SC1965 2N5080 BFY99 ~~~~~69 25 30 2SC731 2SC731 BlY53A 2SC1966 BLX93A BLX68 BLX68 BlW80 ~~~~~7 35 40 MH8112 MH8113 2SD439 2SD1681 2SC2690 2SC2690A PT9732 2SC3292

1MBI400L-120

Abstract: M116 400l1
Contextual Info: • ih ■ ■■ _ 1“Psck IGBT ir.” 1MBI400L-120 IGBT M O D U LE L series Outline Drawings ■ Features • High Speed Switching • Low Saturation Voltage • Voltage Drive ■ Applications • Inverter for M otor Drive • AC and DC Servo Drive Am plifier

DTS108

Abstract: 2n2585 DTS103 DTS106 BUY27
Contextual Info: SYMBOLS & CODES EXPLAINED 7. "N” Channel - SILICON FIELD EFFECT TRANSISTORS 8. GERMANIUM P N P 19 GERMANIUM NPN110. SILICON PNP 11. SILICON NPN High Power Transistors k I B LINE No. H H TYPE No. ABSOiLOTE M A X . RATIING S Ä 2 5 C I I M IN . M A X Pc T 6 T T

Contextual Info: Product Brief network)connected)devices)and)appliances.) ) The) EC32LXX) has) the) lowest) power) consump<on,) smallest) footprint,) and) most) comprehensive) so]ware) )

LCR1210

Abstract: CR1210-2W LCR2010 LCR2512 CR0402-16W CR1206-4W cr2512-2w 0.022 j.100 resistor 270 ohm CR2010-2W
Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

lcr1210

Abstract: 22 Ohm resistor 2W 2512 CR0402-16W CR2010-2W CR1206-8W Venkel CR0603-10W 10k ohm 20W resistor datasheet CR0201-20W CR1210-2W CR1210-4W
Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

CR0402-16W

Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

lcr1210

Abstract: 1206 chip resistor size in mm CR0402-16W
Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

R043

Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008

CR0402-16W

Abstract: lcr1210
Contextual Info: Chip Resistors – CR, LCR and ULCR Features • Flat Chip Resistors for surface mount applications • LCR and ULCR for current sensing applications Dimensions L C C C C T w 01005 0201 0402 0603 0805 1206 1210 2010 2512* L Length Inches (mm) 0.016 ± .0008