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Part Manufacturer Description PDF & SAMPLES
HA3-2525-5Z Intersil Corporation 20MHz, High Slew Rate, Uncompensated, High Input Impedance, Operational Amplifiers; PDIP8; Temp Range: 0° to 70°
BQ27350EVM Texas Instruments BQ27350EVM Single Cell Impedance TrackT Technology
BQ27410EVM Texas Instruments Evaluation Module for BQ27410, Single-Cell Impedance Track? Technology
BQ20Z80EVM-001 Texas Instruments BQ20Z80EVM-001 Impedance Track(TM) Fuel Gauge For LiIon Battery Packs
BQ27500DRZR-V130 Texas Instruments System-Side Impedance Track™ Fuel Gauge 12-SON -40 to 85
BQ27500YZGT-V130 Texas Instruments System-Side Impedance Track™ Fuel Gauge 12-DSBGA -40 to 85

"600 complex impedance"

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: worldwide. Typical AC termination requirements are either 600 resistive or a specific complex impedance , Country AC term Argentina 600 Australia Austria Complex 1 0000 0011 Country , Luxembourg 600 0000 Macao 600 0000 Complex 1 Bolivia 0010 Malaysia 600 0000 Complex 0010 600 0000 600 0000 Complex 0010 Complex 0100 600 0000 Complex 0010 1 600 Bulgaria Canada Malta 0000 Mexico Complex 1 Teridian Semiconductor
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73M1966 73M1966B 73M1906 TBR21 73M1916 capacitor nf TBR-21 73M1916* teridian 73M1866 73M1866B/73M1966B 73M1866/73M1966B 22/73M1
Abstract: worldwide. Typical AC termination requirements are either 600 resistive or a specific complex impedance , Country AC term Argentina 600 Australia Austria Complex 1 0000 0011 Country , Luxembourg 600 0000 Macao 600 0000 Complex 1 Bolivia 0010 Malaysia 600 0000 Complex 0010 600 0000 600 0000 Complex 0010 Complex 0100 600 0000 Complex 0010 1 600 Bulgaria Canada Malta 0000 Mexico Complex 1 Teridian Semiconductor
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73M1906B 73M1866B
Abstract: or a specific complex impedance (resistor/capacitor network) termination such as TBR-21 or , Kong AC term 600 Complex Complex Complex Complex 600 600 Complex 600 600 Complex 600 Complex Complex Complex Complex 600 600 600 Complex Complex Complex Complex Complex 600 600 , term 600 Complex Complex 600 Complex Complex Complex 600 600 600 600 Complex Complex Complex Complex Complex 600 600 Complex 600 Complex Complex Complex Complex Complex 600 ACZ Teridian Semiconductor
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73M1922 yemen 73M1822
Abstract: B8813NL xDSL/POTS ANSI complex impedance (US) - CPE ANSI complex impedance (US) - CO xDSL/POTS , Impedance Standard B8041 ADSL/POTS 600 ETSI real impedance ADSL/ISDN 135 Line Impedance , 600 ETSI real impedance ISDN Part No. Application ITU Spec 992.1 Annex E2 B8817NL xDSL/POTS , current ETSI Complex Impedance (Europe) B8859NL xDSL/POTS Option A of ETSI Spec. TS 101-952-1-1 fully , 150 Line Impedance, ISDN 4B3T, DT Sweden POTS Complex Impedance ­ Compliant (Germany) ADSL/POTS Pulse Engineering
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B8042 B8546 B8850NL SIN-346 MDF splitter V413 z-230pj kdua ADSL2 splitter G992 B8802NL B8845NL B8846NL B8849NL B8841NL
Abstract: . Discussed in this application note is the following: · 2-wire 600 impedance matching · 2-wire complex , into the complex impedance at 1020Hz (EQ. 49) The gain referenced back to 0dBm0(600) is equal to , complex, rather than resistive (e.g., 600). This requires that the physical resistance that is situated , · Reference design for 600 2-wire load · Reference design for China complex 2-wire load , resistance as shown in Figure 4. If the load impedance is 600, then the gain across the HC5503PRC is 2/3 Intersil
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TP3057A AN9872 a4w 41 j156k diode a4W 680k ohms 2w RZ01 ISO9000 CH-1009
Abstract: a purely resistive load. This example will match the device to a 600 load impedance, which is the reference impedance for most North American telephony AC transmission specifications. ­2 ZL ­ 2 ( 600 , Synthesis 470nF VRX 600 The device synthesized impedance (ZO) is defined as the difference between the load impedance (ZL) and the sum of the protection resistance (RP). Z O = Z L ­ 2R P = 600 ­ , a complex 2-wire impedance. The most widely recognized form of the complex network is shown below Intersil
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AN9824 HC55180 HC55181 HC55182 HC55183 HC55184 9824 Model 52K N0035 N0022 RSLIC18TM RSLIC18
Abstract: will match the device to a 600 load impedance, which is the reference impedance for most North American , NETWORK C2S R1S R2S FIGURE 12. TYPICAL COMPLEX IMPEDANCE NETWORK This simulation example will use , Impedance Synthesis When matching the device to a complex load the sum of the protection resistance is , impedance now takes the form of the complex network defined by R1S , R2S and C2S . R 1S = 400 ( R 1 ­ 2R P , transmission requirements are defined around a complex 2-wire impedance. The most widely recognized form of the Intersil
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N0044 N0008
Abstract: resistive load. This example will match the device to a 600 load impedance, which is the reference , . 35 RSLIC18 MODEL TIP 470nF VRX 600 VTX The device synthesized impedance (ZO) is , . Device Impedance Synthesis Z O = Z L ­ 2R P = 600 ­ 2 ( 35 ) = 530 -IN VFB FIGURE 10. G24 , . TYPICAL COMPLEX IMPEDANCE NETWORK The G24 results are predicted using the voltage divider relationship , - = ­ 0.441 600 + 2 ( 35 ) + 530 Z L + 2R P + Z O (EQ. 11) Device Impedance Synthesis The Intersil
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N0033 A 611M 400Z 4.00z
Abstract: voiceband frequencies which is complex, rather than resistive (e.g., 600) . This requires that the physical , Quad PCM CODEC [1]. Discussed in this application note are the following: 2-wire 600 impedance matching 2-wire complex impedance matching Receive gain (4-wire to 2-wire) and transmit gain (2-wire to 4 , resistance as shown in Figure 4. If the load impedance is 600, then the gain across the HC5503PRC is 2/3 (400 , Note AN-352 Reference Design of the HC5503PRC and the IDT821034 With a 600 Load Impedance The Integrated Device Technology
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zo600 Zo-600 RA1Z HC5503 CA5470M 60196VRMS 680II0
Abstract: line with an impedance for voiceband frequencies which is complex, rather than resistive (e.g., 600). , two sense resistors (RS) to the load (Z0). · 2-wire complex impedance matching · Receive gain (4 , Reference design for 600 2-wire load · Reference design for China complex 2-wire load +2.5V TF + , -wire 600 impedance matching RX VTX TRANSMIT + x2 Impedance Matching Discussed in this , resistance as shown in Figure 4. If the load impedance is 600 then , the gain across the HC5503PRC is 2/3 Intersil
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NW1034 a4w 29 a4w 23 AN9924
Abstract: impedance for voiceband frequencies which is complex, rather than resistive (e.g. 600). The HC55185 , |115nF Complex Impedance EXAMPLE 2: Impedance Matching Calculate RS to make ZTR = 220 + 820 , ) EG RS COMPLEX RS = 133.3(600 - 2*49) VRX RS + VTR - ZL RS = 16.26k in series , VALUE 66.5k ZL = ZTR = 600 + 2.16uF RS RS = 133.3(600 - 2*49) + 2.16uF/133.3 COMPLEX RS , equal to each other. (EQ. 32) For a line impedance of 600, RS equals: The gain across the Intersil
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AN9991 16X10 AK2306 ZO 109 115nF 13k g4 AK2306LV AK2306/2306LV 26195VRMS 51382VRMS
Abstract: line with an impedance for voiceband frequencies which is complex, rather than resistive (e.g. 600). , Discussed in this application note are the following: · 2-wire 600 impedance matching. · Receive gain (4 , . · Reference design for 600 2-wire load. · Reference design for China complex 2-wire load , RESISTIVE INTERSIL UniSLIC14 RP 30 VRX VS ZT ZT = 200(600 - 2*30) + 2.16uF/200 COMPLEX , 600 + 2.16uF ZT + VTR - ZO COMPLEX ZT = 200(600 - 2*30) TIP + V2W - ZT ZO Intersil
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TCM38C17 AN9903 ZTR 200 SLIC14
Abstract: frequencies which is complex, rather than resistive (e.g., 600) . This requires that the physical resistance , Quad PCM CODEC [1]. Discussed in this application note are the following: ! 2-wire 600 impedance matching ! 2-wire complex impedance matching ! Receive gain (4-wire to 2-wire) and transmit gain (2 , resistance as shown in Figure 4. If the load impedance is 600, then the gain across the HC5503PRC is 2/3 (400 , -352 Reference Design of the HC5503PRC and the IDT821034 With a 600 Load Impedance The design criteria is as Integrated Device Technology
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AN352
Abstract: impedance (ZO). Figure 1 shows the calculations of ZT to match a resistive and 2 complex loads. The , subscriber line with an impedance for voiceband frequencies which is complex, rather than resistive (e.g., 600). The UniSLIC14 accomplishes this impedance matching with a single network connected to the ZT , capacitor). Discussed in this application note are the following: · 2-wire 600 impedance matching. · , calculations. · Reference design for 600 2-wire load. · Reference design for China complex 2-wire load Intersil
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55742VRMS 51769VRMS
Abstract: line with an impedance for voiceband frequencies which is complex, rather than resistive (e.g., 600). , capacitor). Discussed in this application note are the following: · 2-wire 600 impedance matching. · , calculations. · Reference design for 600 2-wire load. · Reference design for China complex 2-wire load , ) (EQ. 1) Z T = 200 · ( Z TR ­ 2R P ) ZT VRX TIP + COMPLEX ZO = ZTR = 600 RP 30 , ( Z TR ­ 2R P ) (EQ. 23) For a line impedance of 600, ZT equals: Z T = 200 · ( 600 ­ 60 ) = Intersil
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1432-K ETC5054/57 F/200
Abstract: impedance (ZL). Figure 1 shows the calculations of RS to match a resistive and 2 complex loads. The , subscriber line with an impedance for voiceband frequencies which is complex, rather than resistive (e.g. 600). The HC55185 accomplishes this impedance matching with a single network connected between the , are the following: · 2-wire 600 impedance matching. · Receive gain (4-wire to 2-wire) and transmit , -wire load. · Reference design for China complex 2-wire load. EXAMPLE 2: Impedance Matching Intersil
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AN9933 IM30
Abstract: line with an impedance for voiceband frequencies which is complex, rather than resistive (e.g., 600). , note are the following: · 2-wire 600 impedance matching The circuitry inside the dotted box is , -wire complex impedance matching · Receive gain (4-wire to 2-wire) and transmit gain (2-wire to 4 , the total loop resistance as shown in Figure 4. If the load impedance is 600, then the gain across , Design of the HC5503PRC and the TCM38C17 With a 600 Load Impedance The design criteria is as follows Intersil
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AN9898
Abstract: ) to terminate the subscriber line with an impedance for voiceband frequencies which is complex , impedance matching. · 2-wire complex impedance matching. · Receive gain (4-wire to 2-wire) and transmit , 2-wire load. · Reference design for China complex 2-wire load. Impedance Matching Impedance , of the complex network. 2 To achieve the desired matching of the circuit to the line impedance , resistance as shown in Figure 4. If the load impedance is 600, then the gain across the HC5503PRC is 2/3 Intersil
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j250k TP30 TI 3029 772K
Abstract: line with an impedance for voiceband frequencies which is complex, rather than resistive (e.g. 600). , load (Z0). · 2-wire 600 impedance matching. · 2-wire complex impedance matching. · Receive gain (4 , . · Reference design for 600 2-wire load. · Reference design for China complex 2-wire load , shown in Figure 4. If the load impedance is 600, then the gain across the HC5503PRC is 2/3 the input voltage VRX. Likewise, if the load impedance is 811, (next example with a complex load) then the gain Texas Instruments
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38C1 EQ-24
Abstract: +5V T BAPI1 -5V COMPLEX 600n IMPEDANCE STRAP STRAP TRANSMIT C2 C3 TIP 8c RING RECEIVE LOOP SEIZURE & DIALING RELAY 600 Q / Complex impedance Trunk Interface (see notes on back , , expensive central-office-quality transformers. Real or complex impedance can be achieved, impedance can be , connections. Strap Z1 and 72 together to set TIP-RING impedance to 600 Q, or connect an external Impedance , agencies. It terminates a line with the desired impedance and offers unity-gain two to four wire -
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