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1999 - axo 80

Abstract: T41-T864 axc differential amplifier
Text: N.C. RST VSSD AXO HON HOP LSN VSSP LSP VDDP Pin Configuration 6 09.99 PSB 4851 , microphones. 21 AXO O 0V Auxiliary Output: Single ended analog output (e.g line out). 19 , SDR HON SCLK AXO Figure 1-2 Data Sheet VREF REFBG SCI CS Logic Symbol of , LSN HOP HON RST D/A MUX 1.6 Interface D/A AXO Figure 1-3 Control SDX SDR , . handset microphone AXO line output to tip/ring interface HOP, HON handset earpiece LSP, LSN


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PDF P-DSO-28-1 axo 80 T41-T864 axc differential amplifier
1992 - mc68hc705c8p

Abstract: MC14553 MC74HC165N MC145536EVK Motorola analog dc ammeter MC145540 axo 80 J12B dsp for hearing aid MC145537EVK
Text: : from MC145540 to the on the connecter P4 Motorola MC145537EVK Evaluation KI J15A connects the AXO - signal to wire clamp connector P5. J15B MC145540> connects the AXO - signal to the piezo speaker SP1 , included with th The MC145537EVK evaluation boards were designed to connect back-to-back. A 2x20 W3-K-EM- 80 , GEN C5 5V 3V J2 VDD C1 DSW1 RP1 -> U1 D2 OUT C9 AXO >P5 AXO >SP J15AB R26 , ) P5 PIEZO SPEAKER MCU RES VDD VDDA RO AXO >P5 AXO >SP1 BACK TO BACK SPC CLK SPC OFF 2048


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PDF MC145537EVK MC145537EVKs MC145536EVK. MC145540 MC145537EVK mc68hc705c8p MC14553 MC74HC165N MC145536EVK Motorola analog dc ammeter axo 80 J12B dsp for hearing aid
1998 - HF Linear Amplifier Plans

Abstract: MIP2 T41-T864 DECT siemens
Text: 24 23 22 21 20 19 18 17 16 15 SCLK SDX SDR CS N.C. RST VSSD AXO HON HOP LSN , symmetrical differential input for commonly used telephone microphones. 21 AXO O 0V Auxiliary , PSB 4851 RST LSP analog outputs LSN SDX HOP SDR HON SCLK AXO VREF , /A Control MUX AXO Interface D/A SDX SDR SCLK CS Figure 3 Block Diagram of PSB , . handset microphone AXO line output to tip/ring interface HOP, HON handset earpiece LSP, LSN


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PDF P-DSO-28-1 HF Linear Amplifier Plans MIP2 T41-T864 DECT siemens
1999 - Cordless Phone system block diagram

Abstract: BR0-BR15 3 volt regulator DT 8210 microphone clap switch circuit W9321 BR10 WHT9362 W9330F w933
Text: RO 5 24 C1+ AXO - 6 23 C1- AXO + 7 22 V SS V DSP 8 21 MCLK , determined by BR2 (b7). When the chip is in analog power down mode, this pin is high impedance. AXO , . AXO + 7 O This pin is the auxiliary non-inverting analog output. This pin can drive a 300 , output. Its operation is same as the AXO - (pin-6). In the application, this pin can drive the speaker , operation is the same as the AXO + (pin-7). In the application, this pin can drive the speaker of the


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PDF W9321 Cordless Phone system block diagram BR0-BR15 3 volt regulator DT 8210 microphone clap switch circuit W9321 BR10 WHT9362 W9330F w933
Cordless Phone system block diagram

Abstract: l9320 3 volt regulator E1 PCM encoder bi-quad antenna 2.4GHZ PCM SSP L9002VX2 BR12 BR10 2.4GHz Cordless Phone circuit diagram
Text: 27 FSR TI+ 3 26 BCLKR VAG 4 25 DR RO 5 24 C1+ AXO - 6 23 C1- AXO + 7 22 V SS V DSP 8 21 MCLK V EXT 9 20 DT PI , ). When the chip is in analog power down mode, this pin is high impedance. AXO - 6 O This , /2 by BR2 (b7). When the chip is in analog power down mode, this pin is high impedance. AXO + 7 , output. Its operation is same as the AXO - (pin-6). In the application, this pin can drive the speaker


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PDF L9320 W9320. Cordless Phone system block diagram 3 volt regulator E1 PCM encoder bi-quad antenna 2.4GHZ PCM SSP L9002VX2 BR12 BR10 2.4GHz Cordless Phone circuit diagram
Cordless Phone system block diagram

Abstract: 3 volt regulator W9320 BR10 W921E880 W9310 W9310F WHT9360 E1 PCM encoder
Text: VAG 4 25 DR RO 5 24 C1+ AXO - 6 23 C1- AXO + 7 22 V SS V , impedance. AXO - 6 O This pin is the auxiliary inverting analog output. This pin can drive a 300 , the chip is in analog power down mode, this pin is high impedance. AXO + 7 O This pin is , inverting power amplifier output. Its operation is same as the AXO - (pin-6). In the application, this pin , amplifier output. Its operation is the same as the AXO + (pin-7). In the application, this pin can drive


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PDF W9320 Cordless Phone system block diagram 3 volt regulator W9320 BR10 W921E880 W9310 W9310F WHT9360 E1 PCM encoder
1997 - DECT siemens

Abstract: siemens t1 transducer T41-T864
Text: N.C. RST VSSD AXO HON HOP LSN VSSP LSP VDDP Figure 1 Pin Configuration Semiconductor , input for commonly used telephone microphones. 21 AXO O 0V Auxiliary Output: Single , analog outputs LSN SDX HOP SDR HON SCLK AXO VREF REFBG SCI CS Figure , AFEFS Interface AFEDD AFEDU AXI LSP LSN HOP HON RST D/A Control MUX AXO , mic. 1, e.g. speakerphone microphone MIP2, MIN2 mic. 2, e.g. handset microphone AXO line


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PDF P-DSO-28-1 DECT siemens siemens t1 transducer T41-T864
5 to 32 line decoder

Abstract: 5 to 32 decoder 5-to-32 line decoder MT8806AC axo 80 8x4 multiplexor MT8806AP MT8806AE MT8806 5-to-32 line
Text: –¡ Y5 XO E 5 20 □ Y6 AXO c 6 19 3 Y7 X1 [I 7 18 □ RESET AX1 S 17 □ STROBE X2 u 9 16 U , -innnnn 4 2 • 2d ¿8 NC C 5 3 1 27 25 □ Y5 DATA C 6 24 □ Y6 XO c 7 23 □ Y7 AXO C 3 , be cascaded for matrix expansion. CS STROBE T T DATA RESET AXO AX1 AYO AY1 AY2 5 to 32 DECODER , =12V Resistance VDd=10V VDD= 5V (See G.I, G.2, G.3 in Appendix) RON 45 55 120 65 75 185 75 85 215 80 90 225 fi , ). (See G.7 in Appendix). -85 dB V|NA = 2Vpp sine wave f= 10kHz; Rl = IkQ. - 80 dB V|NA


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PDF MT8806 12Vpp RON65i2max. 5 to 32 line decoder 5 to 32 decoder 5-to-32 line decoder MT8806AC axo 80 8x4 multiplexor MT8806AP MT8806AE 5-to-32 line
Not Available

Abstract: No abstract text available
Text: switching STROBE DATA RESET VD D VEE VSS 1 AXO AX1 AX2 AYO AY1 AY2 1 8 x8 6 to 64 , < AY1 H AYO AX2 3 AX1 AXO HX1 HX3 X5 X7 VDD H YO Y1 Y2 Y3 < H n o >< n< < < < nn n n n n , l/> (O h . 00 25 24 23 22 21 20 19 3 3 3 3 3 3 3 AX1 AXO X1 X3 X5 X7 VDD U U Ü U U ÛÜ , connected to the X7, X5, X3 and X1 rows of the switch array. AXO · AX2 Address Lines (Inputs). 3 4 5 6-9 , switches (See G.4 in Appendix) 3-18 70°C TVP Max 75 85 215 85°C TVp Max 80 90 225 Units Test


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PDF MT8808 12Vpp MT8808AC MT8808AE MT8808AP
Cordless Phone system block diagram

Abstract: W9310 BR10 W9310F W9320 WHT9360 BR0-BR15
Text: 3 26 = BCLKR VAG = 4 25 =■DR RO = 5 24 = C1 + axo - = 6 23 = C1- AX0+ <= 7 22 = Vss ^OSP , impedance. AXO - 6 o This pin is the auxiliary inverting analog output. This pin can drive a 300 Q load , analog power down mode, this pin is high impedance. AXO + 7 o This pin is the auxiliary non-inverting , the AXO - (pin-6). In the application, this pin can drive the speaker on the receiver. PO+ 12 O This pin is the non-inverting power amplifier output. Its operation is the same as the AXO + (pin-7). In the


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PDF W9320 Cordless Phone system block diagram W9310 BR10 W9310F W9320 WHT9360 BR0-BR15
1997 - iLCC footprint

Abstract: No abstract text available
Text: VAXI = 10 mV (RMS); pin AXI to AXO when amplifier bit AXM = 1 muted 80 - dB 1998 Jun 11 , transmit and receive amplifiers with respect to Iline = 15 mA voltage gain from AXI to AXO voltage gain , AMPLIFIER 16 2Vd AXO LSA1 LSAI1 26 V 2Vd I 0.5VCC LOUDSPEAKER CHANNEL 24 VCC 28 LSAO DLC CDLC , AXO TXI- TXI+ SWI3 SWI2 SWI1 GND LSPGND LSAO VCC LSAI1 LSAI2 DLC PIN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 , SWI3 18 TXI+ 17 TXI- 16 AXO 15 AXI Fig.2 Pin configuration. 1998 Jun 11 5 Philips


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PDF UBA1707 SCA55 415102/1200/02/pp36 iLCC footprint
5 to 32 line decoder

Abstract: 5 to 32 decoder 5-to-32 line decoder axo 80
Text: STROBE D A TA RESET VD D VEE VSS 1 AXO - 1 AX1 - 8 x4 5 to 32 Decoder Latches , ctio n a l B lock Diagram 3-9 MT8806 ISO-CMOS Y2 C Y1 C YO C DATA C xo C AXO C X1 C AX1 C X2 , 14-16 17 Name V2-Y0 DATA XO AXO X1 AX1 X2 CS X3 V SS Description Y2-Y0 Analog (Inputs/Outputs , consists of a 32 bit write only RAM in which the bits are selected by the address inputs (AY0-AY2, AXO & , 85°C tvp Units Test Conditions Max 65 75 185 Max 80 90 225 a Q v Ron 45 55 120


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PDF MT8806 12Vpp MT8806AC MT8806AE MT8806AP MT8806 5 to 32 line decoder 5 to 32 decoder 5-to-32 line decoder axo 80
DECT siemens

Abstract: smd marking AHs
Text: 11 12 13 14 -1 - 1 ^SSD 21 I D AXO 20 I D 19 I D 18 I D 17 I D 16 I D 15 -1 - 1 HON HOP , AXO HOP HON LSP LSN 0 0 0 0 0V 0V 0V 0V 0V Auxiliary Output: Single ended analog output (e.g , Table 1 Analog Inputs Pins AX I MIP1, MINI MIP2, MIN2 Analog Outputs AXO HOP, HON LSP, LSN Digital , to PREFI2. Therefore the signal fed into MIP2/MIN2 is amplified by MIC2 and AXC and output at AXO , from the gain of the handset amplifier (AHS) as shown in figure 12. AXC axo + <] D/A


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PDF P-DSO-28-1 DECT siemens smd marking AHs
1997 - T41-T864

Abstract: DECT siemens MIP2
Text: 16 15 SCLK SDX SDR CS N.C. RST VSSD AXO HON HOP LSN VSSP LSP VDDP Figure 1 Pin , provides a highly symmetrical differential input for commonly used telephone microphones. 21 AXO , 4851 RST LSP analog outputs LSN SDX HOP SDR HON SCLK AXO VREF , D/A Control MUX AXO Interface D/A SDX SDR SCLK CS Figure 3 Block Diagram of , microphone AXO line output to tip/ring interface HOP, HON handset earpiece LSP, LSN Digital


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PDF T4851-XV21-S1-7600 P-DSO-28-1 T41-T864 DECT siemens MIP2
WB6S

Abstract: Cordless Phone system block diagram AXOV
Text: ss MCLK DT BCLKT FST SSP Rx SSP Tx SSPCLK VAG<= 4 RO = AXO - = AXO + = ^ dsp l- ^EXT ' PI = PO- = , power down mode, this pin is high impedance. Tl- 2 I TI+ 3 I RO 5 0 AXO - 6 0 AXO + 7 0 =1052354 000150b ?33 W9320 Oyinbond X ü jjy ' E lec tro n ics , pin is the inverting power amplifier output. Its operation is same as the AXO - (pin-6). In the , output. Its operation is the same as the AXO + (pin-7). In the application, this pin can drive the speaker


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PDF W9320 W9320 Figure12-2 28-Lead DDD153b WB6S Cordless Phone system block diagram AXOV
Not Available

Abstract: No abstract text available
Text: CONFIGURATION TG = TlTI+ VAG i = RO = AXO - = AXO + ^DSP ' VEXT ' PI = PO- = = PO+ 1 - PDI/RESET = SS PEn = = , TI+ 3 I RO 5 o AXO - 6 o AXO + 7 o W9320 4.2. Analog Interface , amplifier output. Its operation is same as the AXO - (pin-6). In the application, this pin can drive the , as the AXO + (pin-7). In the application, this pin can drive the speaker of the receiver. PO- 11 , analog circuits except for output power amplifiers AXO and PO are supplied with 5-volt power. This


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PDF W9320
Not Available

Abstract: No abstract text available
Text: Jitter < 50ps 80 t7 Minimum Delay Between Conversion (Note 6) • 350 550 ns à , Harmonics) vs Input Frequency LTC1401 •TPC03 Acquisition Time vs Source Impedance 80 70 m â , 80 90 100 FREQUENCY (kHz) Figure 2a. LTC1401 Nonaveraged, 4096 Point FFT Plot with 50kHz , 20log 10 20 30 40 50 60 70 80 90 100 FREQUENCY (kHz) Figure 2b. LTC1401 , (D C l\1 - 80 -90 -100 10k 100k 1M INPUT FREQUENCY (Hz) Figure 4. Distortion vs


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PDF 12-Bit 200ksps 50kHz LTC1290 50ksps LTC1296 LTC1400 400ksps 12-Bit, 400ksps,
Not Available

Abstract: No abstract text available
Text: €” 21 ID AXO 20 ID HON 19 ID HOP 18 ID LSN 17 — 1 ^SSP 1 — 16 ID LSP 15 — 1 ^DDP 1 â , microphones. 21 AXO 0 0V Auxiliary Output: Single ended analog output (e.g line out). 19 , LSN SDX HOP SDR HON SCLK AXO CS ^REF Data Sheet R EF bg T Figure 1-2 , AFEDU AX I * * LSP — LSN AXO Figure 1-3 1.6 SDX — SDR — SCLK , AXO line output to tip/ring interface HOP, HON handset earpiece LSP, LSN Digital Channels


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PDF P-DSO-28-1 35x46* CL2l28x
ADSP-2101

Abstract: 001C 2101
Text: byte: SRO = RXO; SR = SR OR LSHIFT SI BY 8 (LO) DM(ins_count) =SRO; AXO = 3; DM(count) = AXO ; RTI , significant byte 1st} next instruction: AXO = 2; AYO = DM(count) AR = AXO - AYO, {decide which byte is , } {put MS and middle together} {decrement count} least_sig_byte: PX = RXO; PM(15,M5) = SRO; AXO = 3; DM(count) = AXO ; AR = AY1 - 1; DM(ins_count) =AR; RTI; {put LS byte into PX} {write SRO into PM} {PX


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PDF AN-338 ADSP-2101 001C 2101
240rj

Abstract: 1J analog tssop8 ADM485 application note TMP04FT9 optoisolator interface with 8051
Text: 80 90 100 SU P P LY V O LT A G E - V o lts F ig u re 16. S ta rt-U p R esponse F ig u re 19. S , } COUNT1 COMPUTE: astat=0 ; divq divq divq divq divq divq divq divq divq axO divq axO divq axO divq axO divq axO divq axO divq axO divq axO divq axO divq axO =0x ) 3AC; axO axO axO axO axO axO axO axO axO ; ; ; ; ; ; ; ; ; { { { { { { mr=4 00 *T1 } af=MSW of dividend, ay0=LSW } ax0=16-bit divisor , O D , { { { { { Result in ayO } axO =2 35*4 } ar=23 5 -4 0 0 *T 1 / T 2 , result in 0 C


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PDF TMP03 TMP04 TMP03/TMP04* P03/TM 240rj 1J analog tssop8 ADM485 application note TMP04FT9 optoisolator interface with 8051
Not Available

Abstract: No abstract text available
Text: S ) Y2 f e ir s iR if s if z ir n R R R R R 3 » ] DATA A X 3 [T 3^ AXO [ 5 36] CS , DATA RESET DD T AXO AX1 AX2 AX3 AYO AY1 AY2 r i t 7 T O 128 DECODER r ~o , ) ADDRESS AXO - AX3 5 ,2 2 ,2 3 , &4 5,24, 25, &4 X Address Lines. These pins select one o f the , VY = 0.2V VDD = 12V - 45 80 n V n n = 12V DD - 6 10 n - - 10 , YADDRESS X ADDRESS AX3 AX2 AX1 AXO 0 0 0 0 0 SEE NOTE Y SWITCH AY1


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PDF CD22M3494 CD22M3494
mark sheet format 10th

Abstract: No abstract text available
Text: sampling rate of 8.0 kHz coupled with 65 dB SNR + THD per formance make the AD28msp02 attractive in many , has the following specifications: 4th-order high-pass elliptic HR Filter type: Sample frequency: 8.0 , : Filter type: 4th-order high pass elliptic HR Sample frequency: 8.0 kHz Passband cutoff: 150.0 Hz ±0.2 dB , filter. The Sallen-Key filter has a 3 dB point at approximately 80 kHz. Differential Output Amplifier The , begin; R TI; R TI; RTI; R TI; R TI; R TI; RTI; R TI; R TI; R TI; RTI; axO = rxO; txO = axO ; R T I; RTI


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PDF 16-Bit 24-Pin DIP/28-Lead AD28msp02 AD28msp02 MS-013-AE 28-Lead mark sheet format 10th
Not Available

Abstract: No abstract text available
Text: · 60 100 0 50 80 4.1 lis ns 3.2 MHz ns ns ns ns ns ns ns ns (Note 6) · U t5 tß , ,!'!' J ii ii ii ' i iiniiillLi lli.iii J itfi -120 50 60 70 80 90 100 FREQUENCY (kHz) LTC1401 F02a , 0 = Ü 1 -60 -70 - 80 -90 -100 -110 -120 0 10 20 30 40 50 60 70 80 90 100 FREQUENCY (kHz) LTC1400· F02b Figure 2b. LTC1401 Nonaveraged, 4096 Point FFT Plot , 30 40 50 60 70 80 90 100 FREQUENCY (kHz) Figure 5. Intermodulation Distortion


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PDF LTC1401 12-Bit, 200ksps 200ksps, 12-bit 315ns 45ppm/ LTC1401 UpLTC1298 LTC1290
1997 - MC14LC5540DW

Abstract: M68HC05 MC145537EVK MC14LC5540 MC14LC5540FU MC14LC5540P
Text: 2 27 FSR TI + 3 26 BCLKR VAG 4 25 DR RO 5 24 C1 + AXO ­ 6 23 C1 ­ AXO + 7 22 VSS VDSP 8 21 SPC 9 20 DT 10 19 , 16 C1+ C1­ NC VSS NC SPC DT BCLKT SCP Tx SCPEN RO NC AXO ­ AXO + VDSP NC VEXT , DSP DAC PI RO TRIM GAIN AND FILTER AXO ­ FSR BCLKR ADPCM TRANSCODER, RECEIVE GAIN AND DUAL TONE GENERATOR BCLKT FST DT AXO + SIDETONE GAIN TG TI ­ TI + ­


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PDF MC14LC5540TS/D MC14LC5540 MC14LC5540 MC145540/D. MC14LC5540DW M68HC05 MC145537EVK MC14LC5540FU MC14LC5540P
Not Available

Abstract: No abstract text available
Text: superior SNR and THD. A sampling rate of 8.0 kHz coupled with 65 dB SNR + THD per­ formance make the , frequency: 8.0 kHz 150.0 Hz Passband cutoff: ±0.2 dB Passband ripple: Stopband cutoff: 100.0 Hz , : Filter type: 4th-order high pass elliptic HR Sample frequency: 8.0 kHz Passband cutoff: 150.0 Hz , filter has a 3 dB point at approximately 80 kHz. Differential Output Amplifier The AD28msp02’s , TI; R TI; R TI; axO = rxO; txO - axO ; R TI; R TI; R TI; RTI; R TI; R TI; R TI; R TI; R TI; R TI


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PDF 16-Bit 24-Pin DIP/28-Lead AD28msp02 AD28msp02â MS-013-AE
Supplyframe Tracking Pixel