The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC3830DICE Linear Technology IC SWITCHING CONTROLLER, 250 kHz SWITCHING FREQ-MAX, UUC, DIE, Switching Regulator or Controller
RH137KDICE Linear Technology IC VREG ADJUSTABLE NEGATIVE REGULATOR, UUC3, DIE-3, Adjustable Negative Single Output Standard Regulator
RH137HDICE Linear Technology IC VREG ADJUSTABLE NEGATIVE REGULATOR, UUC3, DIE-3, Adjustable Negative Single Output Standard Regulator
LTC3830DWF Linear Technology IC SWITCHING CONTROLLER, 250 kHz SWITCHING FREQ-MAX, UUC, DIE, Switching Regulator or Controller
LT3464DWF Linear Technology IC 0.14 A SWITCHING REGULATOR, UUC8, DIE-8, Switching Regulator or Controller
LTC3830DWF#PBF Linear Technology IC SWITCHING CONTROLLER, 250 kHz SWITCHING FREQ-MAX, UUC, DIE, Switching Regulator or Controller

2N2222 die Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2002 - 2n2222 national semiconductor

Abstract: national 2n2222 2n2222 npn transistor 2N2222 NPN Transistor features 2N2222 transistor Remote Controlled Fan Regulator application 2n2222 2N2222 circuit Datasheet 2N2222 transistor temperature controlled fan regulator
Text: the processor die . This diode is the parasitic PNP found in all CMOS processes. This particular one , thermal diode connected transistors, while the third zone is the LM85 die temperature. The PWM fan drive uses a simple 2N2222 NPN transistor. Since the LM85 has four tach inputs and only three PWM , 0.01 2N2222 +12V +12V 100 pF PWM REMOTE1+ REMOTE1- TACH1 PWM1/ xTESTOUT REMOTE2 , 2N2222 PWM TACH4/ AddSel 2.5V 100 pF TAC 0.01 VCCP_IN 3.3V STBY 6.8k PWM2


Original
PDF com/pf/LM/LM85 2n2222 national semiconductor national 2n2222 2n2222 npn transistor 2N2222 NPN Transistor features 2N2222 transistor Remote Controlled Fan Regulator application 2n2222 2N2222 circuit Datasheet 2N2222 transistor temperature controlled fan regulator
2004 - fan regulator using remote control

Abstract: 2n2222 npn transistor temperature controlled fan regulator national 2n2222 2n2222 national semiconductor 2N2222 die 2N2222 circuit 2N2222 LM85 2N2222 national
Text: on the processor die . This diode is the parasitic PNP found in all CMOS processes. This particular , transistors, while the third zone is the LM85 die temperature. For more information on the error sources , simple 2N2222 NPN transistor. Since the LM85 has four tach inputs and only three PWM outputs, PWM3 is , voltage drop across the 2N2222 in saturation will cause a lower maximum speed on the fan because the fan , the GND will be going to a very high impedance when the 2N2222 is turned off, at high PWM


Original
PDF
2002 - fan regulator using remote control

Abstract: 2N2222 circuit 2n2222 npn transistor hysteresis PWM techniques 2n2222 national semiconductor 2N2222 national LM85 simple temperature controlled fan 3LM85 AN-1260
Text: on the processor die . This diode is the parasitic PNP found in all CMOS processes. This particular , transistors, while the third zone is the LM85 die temperature. For more information on the error sources , simple 2N2222 NPN transistor. Since the LM85 has four tach inputs and only three PWM outputs, PWM3 is , voltage drop across the 2N2222 in saturation will cause a lower maximum speed on the fan because the fan , the GND will be going to a very high impedance when the 2N2222 is turned off, at high PWM


Original
PDF
2002 - 1N2175

Abstract: s parameters of 2N2222 100 khz crystal
Text: shorted together. Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13 , Network VCC+ Analog Input (see Note A) 0.1 µF BALANCE BAL/STRB 2N2222 Sample 1 k TTL Strobe , (continued) VCC+ 3.9 k 10 k 2N3708 Output 500 + 1 k 2N2222 1.5 µF Figure 20. Low-Voltage , k 2N3708 1N914 Output + 1N914 1.5 µF 510 2N2222 Input From TTL 2N2222 2.7 k 2N2222 , 1N2175 VCC+ = 5 V 2N3708 1 k Output to TTL 2N2222 R1 30 k (see Note A) A. R1 sets the


Original
PDF LM211-EP SLCS140A 1N2175 s parameters of 2N2222 100 khz crystal
2002 - 1N2175

Abstract: No abstract text available
Text: shorted together. Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13 , Network VCC+ Analog Input (see Note A) 0.1 µF BALANCE BAL/STRB 2N2222 Sample 1 k TTL Strobe , (continued) VCC+ 3.9 k 10 k 2N3708 Output 500 + 1 k 2N2222 1.5 µF Figure 20. Low-Voltage , k 2N3708 1N914 Output + 1N914 1.5 µF 510 2N2222 Input From TTL 2N2222 2.7 k 2N2222 , 1N2175 VCC+ = 5 V 2N3708 1 k Output to TTL 2N2222 R1 30 k (see Note A) A. R1 sets the


Original
PDF LM211-EP SLCS140A 1N2175
2002 - 1N2175

Abstract: LM211QDREP LM211MDREP LM211M LM211-EP LM211 2N3708 2N2222 15-V DIFFERENTIAL COMPARATOR
Text: . Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13. Strobing 10 , Driver From D/A Network VCC+ Analog Input (see Note A) BALANCE BAL/STRB 0.1 µF 2N2222 , 2N2222 Figure 20. Low-Voltage Adjustable Reference Supply VCC+ = 5 V 3 k 3 k BAL/ STRB , MOS Logic VCC+ = 5 V 3.9 k 30 k (see Note A) 2N3708 1 k 1 k 1N914 Output + 2N2222 1N914 Input From TTL 2N2222 1.5 µF 2.7 k 2N2222 A. 510 2.2 k Adjust to set


Original
PDF LM211-EP SLCS140A 1N2175 LM211QDREP LM211MDREP LM211M LM211-EP LM211 2N3708 2N2222 15-V DIFFERENTIAL COMPARATOR
2002 - Not Available

Abstract: No abstract text available
Text: should be shorted together. Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 kâ , Driver From D/A Network VCC+ Analog Input (see Note A) BALANCE BAL/STRB 0.1 µF 2N2222 , + 1 kΩ 1.5 µF 2N2222 Figure 20. Low-Voltage Adjustable Reference Supply VCC+ = 5 V 3 , 1 kΩ 1 kΩ 1N914 Output + 2N2222 1N914 Input From TTL 2N2222 1.5 µF 2.7 kΩ 2N2222 A. 510 Ω 2.2 kΩ Adjust to set clamp level Figure 22. Precision


Original
PDF LM211-EP SLCS140A
2002 - 2n2222 ti

Abstract: No abstract text available
Text: shorted together. Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13 , Network VCC+ Analog Input (see Note A) 0.1 µF BALANCE BAL/STRB 2N2222 Sample 1 k TTL Strobe , (continued) VCC+ 3.9 k 10 k 2N3708 Output 500 + 1 k 2N2222 1.5 µF Figure 20. Low-Voltage , k 2N3708 1N914 Output + 1N914 1.5 µF 510 2N2222 Input From TTL 2N2222 2.7 k 2N2222 , 1N2175 VCC+ = 5 V 2N3708 1 k Output to TTL 2N2222 R1 30 k (see Note A) A. R1 sets the


Original
PDF LM211-EP SLCS140A 2n2222 ti
2004 - Not Available

Abstract: No abstract text available
Text: 2N2222 1 k Input 20 k Output NOTE: Do not connect strobe pin directly to ground, because the output is , APPLICATION INFORMATION From D/A Network VCC+ Output 22 k Analog Input BALANCE 0.1 µF 2N2222 Sample 1 k , k 10 k 2N3708 Output BALANCE Input + 1 k 2N2222 1.5 µF 500 3 k VCC+ = 5 V 3 k BAL/ STRB , VCC+ = 5 V 3.9 k 30 k 1 k 1 k 2N3708 1N914 Output + 1N914 1.5 µF 2N2222 510 2N2222 Input From TTL 2N2222 2.7 k 2.2 k Adjust to set clamp level Figure 22. Precision Squarer VCC+ = 5


Original
PDF LM211Q1 SLCS143A LM211
2002 - 15-V

Abstract: 1N914 2N2222 2N3708 LM211 LM211QDREP TL081
Text: -kHz Free-Running Multivibrator VCC+ 20 k BAL/STRB Output Input TTL Strobe 2N2222 1 k VCC , 22 k BALANCE BAL/STRB 0.1 µF Input TTL Strobe 2N2222 Sample 1 k Typical input , 2N2222 VCC­ = ­10 V Figure 20. Low-Voltage Adjustable Reference Supply 12 POST OFFICE BOX , k 1 k 2N3708 1 k 1N914 Output + 2N2222 1N914 Input From TTL 2N2222 1.5 µF 2.7 k 510 2N2222 2.2 k Adjust to set clamp level Figure 22. Precision Squarer


Original
PDF LM211EP SLCS140 LM211 15-V 1N914 2N2222 2N3708 LM211 LM211QDREP TL081
2004 - 1N2175

Abstract: No abstract text available
Text: Balancing BAL/STRB VCC+ TTL Strobe 2N2222 1 k Input 20 k Output NOTE: Do not connect strobe pin , 2004 APPLICATION INFORMATION From D/A Network VCC+ Output 22 k Analog Input BALANCE 0.1 µF 2N2222 , Simultaneously VCC+ 3.9 k 10 k 2N3708 Output BALANCE Input + 1 k 2N2222 1.5 µF 500 3 k VCC+ = 5 V 3 k , VCC+ = 5 V 3.9 k 30 k 1 k 1 k 2N3708 1N914 Output + 1N914 1.5 µF 2N2222 510 2N2222 Input From TTL 2N2222 2.7 k 2.2 k Adjust to set clamp level Figure 22. Precision Squarer VCC+ = 5


Original
PDF LM211Q1 SLCS143 AEC-Q100 LM211 1N2175
2002 - 1N2175

Abstract: LM211MDREP 2N3708 LM211QDREP LM211M LM211-EP LM211 2N2222 15-V 2n3708 equivalent
Text: . Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13. Strobing 10 , Driver From D/A Network VCC+ Analog Input (see Note A) BALANCE BAL/STRB 0.1 µF 2N2222 , 2N2222 Figure 20. Low-Voltage Adjustable Reference Supply VCC+ = 5 V 3 k 3 k BAL/ STRB , MOS Logic VCC+ = 5 V 3.9 k 30 k (see Note A) 2N3708 1 k 1 k 1N914 Output + 2N2222 1N914 Input From TTL 2N2222 1.5 µF 2.7 k 2N2222 A. 510 2.2 k Adjust to set


Original
PDF LM211-EP SLCS140A 1N2175 LM211MDREP 2N3708 LM211QDREP LM211M LM211-EP LM211 2N2222 15-V 2n3708 equivalent
2002 - fet 2n2222

Abstract: LM211-EP 2n2222 ti 2n2222 equivalent LM211QDREP LM211MDREP LM211M LM211 2N3708 2N2222
Text: . Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13. Strobing 10 , Driver From D/A Network VCC+ Analog Input (see Note A) BALANCE BAL/STRB 0.1 µF 2N2222 , 2N2222 Figure 20. Low-Voltage Adjustable Reference Supply VCC+ = 5 V 3 k 3 k BAL/ STRB , MOS Logic VCC+ = 5 V 3.9 k 30 k (see Note A) 2N3708 1 k 1 k 1N914 Output + 2N2222 1N914 Input From TTL 2N2222 1.5 µF 2.7 k 2N2222 A. 510 2.2 k Adjust to set


Original
PDF LM211-EP SLCS140A fet 2n2222 LM211-EP 2n2222 ti 2n2222 equivalent LM211QDREP LM211MDREP LM211M LM211 2N3708 2N2222
2002 - Not Available

Abstract: No abstract text available
Text: shorted together. Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13 , Network VCC+ Analog Input (see Note A) 0.1 µF BALANCE BAL/STRB 2N2222 Sample 1 k TTL Strobe , (continued) VCC+ 3.9 k 10 k 2N3708 Output 500 + 1 k 2N2222 1.5 µF Figure 20. Low-Voltage , k 2N3708 1N914 Output + 1N914 1.5 µF 510 2N2222 Input From TTL 2N2222 2.7 k 2N2222 , 1N2175 VCC+ = 5 V 2N3708 1 k Output to TTL 2N2222 R1 30 k (see Note A) A. R1 sets the


Original
PDF LM211-EP SLCS140A
2002 - Not Available

Abstract: No abstract text available
Text: shorted together. Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13 , Network VCC+ Analog Input (see Note A) 0.1 µF BALANCE BAL/STRB 2N2222 Sample 1 k TTL Strobe , (continued) VCC+ 3.9 k 10 k 2N3708 Output 500 + 1 k 2N2222 1.5 µF Figure 20. Low-Voltage , k 2N3708 1N914 Output + 1N914 1.5 µF 510 2N2222 Input From TTL 2N2222 2.7 k 2N2222 , 1N2175 VCC+ = 5 V 2N3708 1 k Output to TTL 2N2222 R1 30 k (see Note A) A. R1 sets the


Original
PDF LM211-EP SLCS140A
2002 - 2n2222

Abstract: DIFFERENTIAL COMPARATOR
Text: shorted together. Figure 12. Offset Balancing BAL/STRB TTL Strobe 2N2222 1 k Figure 13 , Network VCC+ Analog Input (see Note A) 0.1 µF BALANCE BAL/STRB 2N2222 Sample 1 k TTL Strobe , (continued) VCC+ 3.9 k 10 k 2N3708 Output 500 + 1 k 2N2222 1.5 µF Figure 20. Low-Voltage , k 2N3708 1N914 Output + 1N914 1.5 µF 510 2N2222 Input From TTL 2N2222 2.7 k 2N2222 , 1N2175 VCC+ = 5 V 2N3708 1 k Output to TTL 2N2222 R1 30 k (see Note A) A. R1 sets the


Original
PDF LM211-EP SLCS140A 2n2222 DIFFERENTIAL COMPARATOR
2004 - Not Available

Abstract: No abstract text available
Text: 2N2222 1 k Input 20 k Output NOTE: Do not connect strobe pin directly to ground, because the output is , APPLICATION INFORMATION From D/A Network VCC+ Output 22 k Analog Input BALANCE 0.1 µF 2N2222 Sample 1 k , k 10 k 2N3708 Output BALANCE Input + 1 k 2N2222 1.5 µF 500 3 k VCC+ = 5 V 3 k BAL/ STRB , VCC+ = 5 V 3.9 k 30 k 1 k 1 k 2N3708 1N914 Output + 1N914 1.5 µF 2N2222 510 2N2222 Input From TTL 2N2222 2.7 k 2.2 k Adjust to set clamp level Figure 22. Precision Squarer VCC+ = 5


Original
PDF LM211Q1 SLCS143A LM211
2004 - 2n2222 ti

Abstract: No abstract text available
Text: 2N2222 1 k Input 20 k Output NOTE: Do not connect strobe pin directly to ground, because the output is , APPLICATION INFORMATION From D/A Network VCC+ Output 22 k Analog Input BALANCE 0.1 µF 2N2222 Sample 1 k , k 10 k 2N3708 Output BALANCE Input + 1 k 2N2222 1.5 µF 500 3 k VCC+ = 5 V 3 k BAL/ STRB , VCC+ = 5 V 3.9 k 30 k 1 k 1 k 2N3708 1N914 Output + 1N914 1.5 µF 2N2222 510 2N2222 Input From TTL 2N2222 2.7 k 2.2 k Adjust to set clamp level Figure 22. Precision Squarer VCC+ = 5


Original
PDF LM211Q1 SLCS143A LM211 2n2222 ti
2004 - Not Available

Abstract: No abstract text available
Text: Balancing BAL/STRB VCC+ TTL Strobe 2N2222 1 k Input 20 k Output NOTE: Do not connect strobe pin , 2004 APPLICATION INFORMATION From D/A Network VCC+ Output 22 k Analog Input BALANCE 0.1 µF 2N2222 , Simultaneously VCC+ 3.9 k 10 k 2N3708 Output BALANCE Input + 1 k 2N2222 1.5 µF 500 3 k VCC+ = 5 V 3 k , VCC+ = 5 V 3.9 k 30 k 1 k 1 k 2N3708 1N914 Output + 1N914 1.5 µF 2N2222 510 2N2222 Input From TTL 2N2222 2.7 k 2.2 k Adjust to set clamp level Figure 22. Precision Squarer VCC+ = 5


Original
PDF LM211Q1 SLCS143 AEC-Q100 LM211
2004 - tl081 peak detector

Abstract: No abstract text available
Text: Balancing BAL/STRB VCC+ TTL Strobe 2N2222 1 k Input 20 k Output NOTE: Do not connect strobe pin , 2004 APPLICATION INFORMATION From D/A Network VCC+ Output 22 k Analog Input BALANCE 0.1 µF 2N2222 , Simultaneously VCC+ 3.9 k 10 k 2N3708 Output BALANCE Input + 1 k 2N2222 1.5 µF 500 3 k VCC+ = 5 V 3 k , VCC+ = 5 V 3.9 k 30 k 1 k 1 k 2N3708 1N914 Output + 1N914 1.5 µF 2N2222 510 2N2222 Input From TTL 2N2222 2.7 k 2.2 k Adjust to set clamp level Figure 22. Precision Squarer VCC+ = 5


Original
PDF LM211Q1 SLCS143 AEC-Q100 LM211 tl081 peak detector
2004 - 15-V

Abstract: 1N914 2N2222 2N3708 LM211 LM211QDRQ1 2n2222 ti
Text: 2N2222 20 k 1 k Output Input NOTE: Do not connect strobe pin directly to ground, because , + Output Analog Input 22 k BALANCE BAL/STRB 0.1 µF Input TTL Strobe 2N2222 Sample , 1.5 µF 10 k 2N2222 VCC- = -10 V Figure 20. Low-Voltage Adjustable Reference Supply 12 , INFORMATION VCC+ = 5 V 3.9 k 30 k 1 k 2N3708 1 k 1N914 Output + 2N2222 1N914 Input From TTL 2N2222 1.5 µF 2.7 k 510 2N2222 2.2 k Adjust to set clamp level Figure


Original
PDF LM211Q1 SLCS143A LM211 15-V 1N914 2N2222 2N3708 LM211QDRQ1 2n2222 ti
2004 - Not Available

Abstract: No abstract text available
Text: + TTL Strobe 2N2222 20 kΩ 1 kΩ Output Input NOTE: Do not connect strobe pin , € 22 kΩ BALANCE BAL/STRB 0.1 µF Input TTL Strobe 2N2222 Sample 1 kΩ â , µF 1 kΩ 10 kΩ 2N2222 VCC− = −10 V Figure 20. Low-Voltage Adjustable Reference , kΩ 1N914 Output 1N914 + Input From TTL 2N2222 1.5 µF 2N2222 2.7 kΩ 510 Ω 2N2222 2.2 kΩ †Adjust to set clamp level Figure 22. Precision Squarer VCC+ =


Original
PDF LM211Ä SLCS143A LM211
2004 - 2n2222 ti

Abstract: No abstract text available
Text: 2N2222 1 k Input 20 k Output NOTE: Do not connect strobe pin directly to ground, because the output is , APPLICATION INFORMATION From D/A Network VCC+ Output 22 k Analog Input BALANCE 0.1 µF 2N2222 Sample 1 k , k 10 k 2N3708 Output BALANCE Input + 1 k 2N2222 1.5 µF 500 3 k VCC+ = 5 V 3 k BAL/ STRB , VCC+ = 5 V 3.9 k 30 k 1 k 1 k 2N3708 1N914 Output + 1N914 1.5 µF 2N2222 510 2N2222 Input From TTL 2N2222 2.7 k 2.2 k Adjust to set clamp level Figure 22. Precision Squarer VCC+ = 5


Original
PDF LM211Q1 SLCS143A LM211 2n2222 ti
2004 - 1N2175

Abstract: 2n3708 equivalent 15-V 2N2222 die 2n2222 MSL LM211QDRQ1 LM211 2N3708 2N2222 1N914
Text: 2N2222 20 k 1 k Output Input NOTE: Do not connect strobe pin directly to ground, because , + Output Analog Input 22 k BALANCE BAL/STRB 0.1 µF Input TTL Strobe 2N2222 Sample , 1.5 µF 10 k 2N2222 VCC- = -10 V Figure 20. Low-Voltage Adjustable Reference Supply 12 , INFORMATION VCC+ = 5 V 3.9 k 30 k 1 k 2N3708 1 k 1N914 Output + 2N2222 1N914 Input From TTL 2N2222 1.5 µF 2.7 k 510 2N2222 2.2 k Adjust to set clamp level Figure


Original
PDF LM211Q1 SLCS143A LM211 1N2175 2n3708 equivalent 15-V 2N2222 die 2n2222 MSL LM211QDRQ1 2N3708 2N2222 1N914
BJT 2N2222 datasheet

Abstract: bjt 2n2222 transistor BJT 2N2222 BJT 2N2222 beta 2N2222 bjt circuits using BJT 2N2222 hmc1022 circuits using BJT 2N2222 in transistor BJT 2N2222 datasheet beta IRF7105N
Text: patented coil co-located on the silicon die with the sensor. This coil is a planar winding or "strap" of , a corresponding magnetic field into the sensor. Figure 3 shows a photo of a typical AMR die , Set/Reset Strap AMR Bridge Elements Figure 3 AMR Die Each set/reset strap has a set of , minimize die heating, and that charge and dump circuits have certain capacitances so that the exponential , 4 V1 0V Ysr volts -3V 3V 1 0V 2 R3 220 C2 0.1U Q1 2N2222 -


Original
PDF AN213 BJT 2N2222 datasheet bjt 2n2222 transistor BJT 2N2222 BJT 2N2222 beta 2N2222 bjt circuits using BJT 2N2222 hmc1022 circuits using BJT 2N2222 in transistor BJT 2N2222 datasheet beta IRF7105N
Supplyframe Tracking Pixel