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TC78B011FTG TC78B011FTG ECAD Model Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=30/Square, Sine Wave Visit Toshiba Electronic Devices & Storage Corporation
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WAVEVSN BRD 5.1/NOPB WAVEVSN BRD 5.1/NOPB ECAD Model Texas Instruments WaveVision 5 Data Capture Board Version 5.1 Visit Texas Instruments Buy

SQUARE WAVE TO SINE WAVE schematic diagram Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
wf_47003.0

Abstract: No abstract text available
Text: at the 4 stages, consisting of a square wave output, a triangle wave output, a sine wave output and –2X gain amplifier respectively. The first stage functions as a square wave generator. Initially , the third stage produces a sine wave signal at the output of the third stage. The fourth and last stage is merely a standard inverting amplifier with a gain equal to –2. For full schematic diagram , functions as an oscillator, generating a square wave . When this square wave is integrated at the second


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ICL8038BC

Abstract: ICL8038 applications
Text: temperature drift to less than 250ppm/°C. • Simultaneous Sine , Square , and Triangle Wave Outputs â , flip-flop produces a square wave . Both waveforms are fed to buffer stages and are available at pins 3 and 9 , triangle and sine wave and the 0 state of the square wave is: t _ cxv > S _C X 1 / 3 V s , triangle and sine wave are at exactly one-half of the sup­ ply voltage, while the square wave alternates , wave distortion close to 0.5% The square wave output is not committed. A load resistor can be


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PDF ICL8038 250ppm/Â ICL8038 001Hz 300kHz ICLS038 ICL8038BC ICL8038 applications
frequency modulation using icl8038

Abstract: ICL8038 IC 8038 function generator SQUARE WAVE TO SINE WAVE schematic diagram ICL8038 for frequency modulation ne562 ICL8038CCPD ICL8038ACJD icl8038 application IC 8038 function generator circuit diagram
Text: Temperature - 250ppm/°C · Simultaneous Sine , Square , and Triangle Wave Outputs · Low Distortion -1% ( Sine Wave , processing is required. Pinout ICL8038 (PDIP, CDIP, SOIC) TOP VIEW SINE WAVE r Functional Diagram , flip-flop produces a square wave . Both waveforms are fed to buffer stages and are available at pins 3 and 9 , % \ The falling portion of the triangle and sine wave and the 0 state of the square wave is , . First, two different supply voltages are used and the square wave output is returned to the supply of


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PDF ICL8038 ICL8038 300kHz frequency modulation using icl8038 IC 8038 function generator SQUARE WAVE TO SINE WAVE schematic diagram ICL8038 for frequency modulation ne562 ICL8038CCPD ICL8038ACJD icl8038 application IC 8038 function generator circuit diagram
BEL 100N TRANSISTOR PIN DIAGRAM

Abstract: SQUARE WAVE TO SINE WAVE schematic diagram BEL 100N TRANSISTOR phase shifter dc to 100mhz of IC micro A 741 RF2712 500 va sine wave ups circuit
Text: wave signals will degrade performance in a fashion similar to non-50% duty cycle square waves. A sine , relative to the internal DC reference point. For this reason, distorted LO sine wave signals will degrade performance in a fashion similar to non-50% duty cycle square waves. A sine wave input with even harmonics , are acceptable, providing that the LO signal is square wave . Above 100kHz a sine wave signal is , acceptable, providing that the LO signal is square wave . Above 100kHz a sine wave signal is acceptable. The


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PDF RF2712 RF2712 100kHz 25MHz 100MHz 10Q4131 IRF27Ã RF27t BEL 100N TRANSISTOR PIN DIAGRAM SQUARE WAVE TO SINE WAVE schematic diagram BEL 100N TRANSISTOR phase shifter dc to 100mhz of IC micro A 741 500 va sine wave ups circuit
2009 - SQUARE WAVE TO SINE WAVE schematic diagram

Abstract: LTC2351-14 DC890 DC890B
Text: (Refer to Schematic ) Master clock at 98x conversion rate, 3.3Vpp Sine or Square wave (See Hardware , terminals. Apply a 25MHz 3.3Vp-p sine wave or square wave to connec- tor J3. Note that J3 has a 50 ohm termination resistor to ground. CH0-CH5 are provided through connector J1 (See schematic for details.). Run , ohm termination resistor, and is intended to be driven by a 3.3Vpp sine or square wave . This clock , inputs, multiple grounds, a mid-supply bias voltage and Vref. Refer to schematic for pin out. The


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PDF 14-BIT, LTC2351-14 250KSPS 200ps. DC890B LTC2351-14. DC890B LTC2351-14 SQUARE WAVE TO SINE WAVE schematic diagram DC890
2006 - SQUARE WAVE TO SINE WAVE schematic diagram

Abstract: LTC1408 DC890 DC890B
Text: . Apply a 20.2MHz 3.3Vp-p sine wave or square wave to connector J3. Note that J3 has a 50 ohm termination resistor to ground. CH0-CH5 are provided through con- nector J1 (See schematic for details.). As shipped , is intended to be driven by a 3.3Vpp sine or square wave . This clock is divided by 202 in the , Supply Master clock at 202x converstion rate, 3.3Vpp Sine or Square wave (See Hardware Setup Section) 40 pin Analog Signal Connector To DC890 (Refer to Schematic ) Controller 2 QUICK


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PDF 14-BIT, 600KSPS LTC1408 LTC1408 600KSPS; 100KSPS 200ps. DC890B LTC1408. SQUARE WAVE TO SINE WAVE schematic diagram DC890 DC890B
2009 - SQUARE WAVE TO SINE WAVE schematic diagram

Abstract: DC890B LTC1408 DC890 high sampling ADC board
Text: . Apply a 10MHz 3.3Vp-p sine wave or square wave to connector J3. Note that J3 has a 50 Ohms termination resis- tor to ground. CH0-CH5 are provided through connector J1 (See schematic for details.). Run the , ADC Figure 1. CONNECTION DIAGRAM 5-7VDC Supply 40 pin Analog Signal Connector (Refer to Schematic ) Master clock at 98x conversion rate, 3.3Vpp Sine or Square wave (See Hardware Setup Section , resistor, and is intended to be driven by a 3.3Vpp sine or square wave . This clock is divided by 98 in


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PDF 14-BIT, 600KSPS LTC1408 LTC1408 600KSPS; 100KSPS 200ps. DC890B LTC1408. SQUARE WAVE TO SINE WAVE schematic diagram DC890B DC890 high sampling ADC board
1999 - frequency modulation using icl8038

Abstract: sine wave generator using 741 ICL8038 variable resistor 100k connection ic 741 comparator signal generator ICL8038 for frequency modulation ICL8038 function generator square wave generator using ic 741 ICL8038CCJD ICL8038CCPD
Text: , Square , and Triangle Wave Outputs · Easy to Use - Just a Handful of External Components Required , capacitor and the flip-flop produces a square wave . Both waveforms are fed to buffer stages and are , than 1% to greater than 99% are available at Terminal 9. The sine wave is created by feeding the , separate (A). RA controls the rising portion of the triangle and sine wave and the 1 state of the square , and sine wave are at exactly one-half of the supply voltage, while the square wave alternates between


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PDF ICL8038 ICL8038 001Hz 300kHz 125oC frequency modulation using icl8038 sine wave generator using 741 variable resistor 100k connection ic 741 comparator signal generator ICL8038 for frequency modulation ICL8038 function generator square wave generator using ic 741 ICL8038CCJD ICL8038CCPD
1998 - frequency modulation using icl8038

Abstract: ICL8038 function generator Harris AN013 ICL8038 ne562 2n4392 SPECIFICATION sine wave generator using 741 ICL8038 for frequency modulation square wave generator using ic 741 ICL8038CCJD
Text: , Square , and Triangle Wave Outputs · Easy to Use - Just a Handful of External Components Required , capacitor and the flip-flop produces a square wave . Both waveforms are fed to buffer stages and are , than 1% to greater than 99% are available at Terminal 9. The sine wave is created by feeding the , separate (A). RA controls the rising portion of the triangle and sine wave and the 1 state of the square , and sine wave are at exactly one-half of the supply voltage, while the square wave alternates between


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PDF ICL8038 ICL8038 001Hz 300kHz 125oC frequency modulation using icl8038 ICL8038 function generator Harris AN013 ne562 2n4392 SPECIFICATION sine wave generator using 741 ICL8038 for frequency modulation square wave generator using ic 741 ICL8038CCJD
2001 - frequency modulation using icl8038

Abstract: ICL8038 ICL8038 function generator square wave generator using ic 741 ICL8038CCPD sine wave generator using 741 operation of frequency modulation using icl8038 ICL8038 for frequency modulation free circuit ICL8038 triangle wave generator using 741
Text: Outputs. . . . . . . . . . . . . . . . . . . . . . TTL to 28V · Simultaneous Sine , Square , and Triangle , - PKG. NO. 6 CURRENT SOURCE #1 I SINE WAVE 1 ADJUST ra- PACKAGE Functional Diagram , capacitor and the flip-flop produces a square wave . Both waveforms are fed to buffer stages and are , portion of the triangle and sine wave and the 1 state of the square wave . The magnitude of the triangle , DUTY CYCLE - 50% The falling portion of the triangle and sine wave and the 0 state of the square


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PDF ICL8038 250ppm/oC ICL8038 001Hz 300kHz frequency modulation using icl8038 ICL8038 function generator square wave generator using ic 741 ICL8038CCPD sine wave generator using 741 operation of frequency modulation using icl8038 ICL8038 for frequency modulation free circuit ICL8038 triangle wave generator using 741
1996 - sine wave generator using 741

Abstract: ICL8038 8038CC Harris AN013 frequency modulation using icl8038 ICL8038CCPD NE562 ICL8038BMJD HA2800 ICL8038 function generator
Text: . . . . . . . . . . . . . . . . . TTL to 28V · Simultaneous Sine , Square , and Triangle Wave , triangle and sine wave and the 1 state of the square wave . The magnitude of the triangle waveform is set , triangle and sine wave and the 0 state of the square wave is: t 2 R R C C × 1/3V SUPPLY A B C×V , Reducing Distortion To minimize sine wave distortion the 82k resistor between pins 11 and 12 is best made , reduction of sine wave distortion close to 0.5%. V+ 1k RA 7 4 5 8 RL RB 6 ICL8038


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PDF ICL8038 250ppm/oC ICL8038 001Hz 300kHz 125oC sine wave generator using 741 8038CC Harris AN013 frequency modulation using icl8038 ICL8038CCPD NE562 ICL8038BMJD HA2800 ICL8038 function generator
1993 - square wave generator using ic 741

Abstract: IC 8038 function generator frequency modulation using icl8038 8038 function generator application ICL8038 function generator 8038 function generator in753a ICL8038 8038 ic pin diagram for fm IC 8038 function generator circuit diagram
Text: · Simultaneous Sine , Square , and Triangle Wave Outputs · Low Distortion - 1% ( Sine Wave Output) · , controls the rising portion of the triangle and sine wave and the 1 state of the square wave . The , SUPPLY The falling portion of the triangle and sine wave and the 0 state of the square wave is: t , triangle and sine wave are at exactly one-half of the supply voltage, while the square wave alternates , TIMING RESISTORS To minimize sine wave distortion the 82k resistor between pins 11 and 12 is best


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PDF ICL8038 250ppm/ 001Hz 300kHz ICL8038 square wave generator using ic 741 IC 8038 function generator frequency modulation using icl8038 8038 function generator application ICL8038 function generator 8038 function generator in753a 8038 ic pin diagram for fm IC 8038 function generator circuit diagram
L8038

Abstract: of ic l8038 free circuit ICL8038 HA2800 8038 waveform audio generator 20kHzY ICL8038ACJD ic 8038 used for fm 8038AC tr/Harris AN013
Text: produces a square wave . Both waveforms are fed to buffer stages and are available at pins 3 and 9. 8-156 , of the triangle and sine wave and the 1 state of the square wave . The magnitude of the triangle , x The falling portion of the triangle and sine wave and the 0 state of the square wave is: c XV , ucing D is to rtio n To minimize sine wave distortion the 82k£2 resistor between pins 11 and 12 is best , reduction of sine wave distortion close to 0.5%. V+ output can be made TTL compatible (load resistor con


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PDF ICL8038 ICL8038 001Hz 300kHz L8038 of ic l8038 free circuit ICL8038 HA2800 8038 waveform audio generator 20kHzY ICL8038ACJD ic 8038 used for fm 8038AC tr/Harris AN013
2005 - DTMF based home automation system

Abstract: home automation using dtmf using microcontroller circuit diagram of home automation using dtmf DTMF KEYPAD AN2247 dtmf based project DTMF DEcoder FREQUENCY datasheets dave van ess DTMF DEcoder FREQUENCY home automation using dtmf
Text: converting a sine wave into a square wave . Refer to Figure 3. This square signal is routed to the "capture" , timers (low and high) start. When the sine wave begins to increase, it is converted into a square wave , trigger, which converts sine wave and increases and decreases into square wave rising and falling edges , Conversion into Square Wave The DTMF detector functional diagram is depicted in Figure 2. February 24 , falling edge of the square wave , which causes the Schmidt trigger output value to reset to zero state


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PDF AN2247 CY8C27xxx, CY8C29xxx AN2122, AN2038, AN2027 DTMF based home automation system home automation using dtmf using microcontroller circuit diagram of home automation using dtmf DTMF KEYPAD AN2247 dtmf based project DTMF DEcoder FREQUENCY datasheets dave van ess DTMF DEcoder FREQUENCY home automation using dtmf
SQUARE WAVE TO SINE WAVE schematic diagram

Abstract: ECG864 100hz SQUARE WAVE TO SINE WAVE schematic diagram precision Sine 1khz Wave Generator precision Sine Wave Generator precision Sine 1Mhz Wave Generator ECG466 pulse generator variable duty cycle triangle wave triangle wave application note
Text: frequency drift with temperature - 50 ppm/°C • Simultaneous sine , square , and triangle wave outputs • Low distortion -1% ( sine wave output) • High linearity - 0.1% (triangle wave output) • Wide , high accuracy sine , square , triangular, sawtooth and pulse waveforms with a minimum of external , . NOTE-PAINT BAND (ON SOME) DENOTES INDEX SINE WAVE ADJUST SINE WAVE OUT TRIANGLE OUT I DUTY CYCLE FREQUENCY ADJUST FM I BIAS I E E E m Œ 3 E m ti ig [6 3 E 3 SINE WAVE ADJUST IjJ V~OR GNO TIMING


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PDF ECG864 CG941 ECG5013A ECG864 JECG177 ECG884 SQUARE WAVE TO SINE WAVE schematic diagram 100hz SQUARE WAVE TO SINE WAVE schematic diagram precision Sine 1khz Wave Generator precision Sine Wave Generator precision Sine 1Mhz Wave Generator ECG466 pulse generator variable duty cycle triangle wave triangle wave application note
2010 - 10e2

Abstract: No abstract text available
Text: Frequency Sine Wave or Square Wave Input 15 Min RF Input Frequency Typ. Sine Wave or Square , Power Range (N = 2, 4, 8) Sine Wave or Square Wave Input [1] [2] Fin < 8 GHz GHz 0.1 GHz 10 -10 dBm Sine Wave or Square Wave Input [1] [2] Fin > 8 GHz -10 0 dBm Sine Wave or Square Wave Input [1] -10 10 dBm Divider Output Characteristics Output Power (N = 1) Output , L, S2 = L mA 162 mA 3 Bit [1] Square wave input waveform is recommended below 400


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PDF HMC862LP3E HMC862LP3E 10e2
2010 - Not Available

Abstract: No abstract text available
Text: , 8 -153 dBc/Hz dBm dBm Sine Wave or Square Wave Input Sine Wave or Square Wave Input [1] Sine Wave or Square Wave Input [1] [2] Fin < 8 GHz Sine Wave or Square Wave Input [1] [2] Fin > 8 GHz Sine Wave or Square Wave Input [1] -10 -10 -10 15 0.1 10 0 10 GHz GHz dBm dBm dBm Conditions Min. Typ. Max. Units [1] Square wave input waveform is recommended below 400 MHz for best phase noise performance. If sine , ground slug which must be connected to RF/DC ground. Interface Schematic 4 Frequency Dividers &


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PDF HMC862LP3E HMC862LP3E
Not Available

Abstract: No abstract text available
Text: Frequency Sine Wave or Square Wave Input 15 Min RF Input Frequency Typ. Sine Wave or Square , Power Range (N = 2, 4, 8) Sine Wave or Square Wave Input [1] [2] Fin < 8 GHz GHz 0.1 GHz 10 -10 dBm Sine Wave or Square Wave Input [1] [2] Fin > 8 GHz -10 0 dBm Sine Wave or Square Wave Input [1] -10 10 dBm Divider Output Characteristics Output Power (N = 1) Output , , S1 = L, S2 = L mA 162 mA 3 Bit [1] Square wave input waveform is recommended below


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PDF HMC862LP3E HMC862LP3E
2010 - ATC530L

Abstract: hmc862 ATC53
Text: Frequency Sine Wave or Square Wave Input 15 Min RF Input Frequency Typ. Sine Wave or Square , Power Range (N = 2, 4, 8) GHz 0.1 GHz 10 dBm Sine Wave or Square Wave Input [1] [2] Fin < 8 GHz -10 Sine Wave or Square Wave Input [1] [2] Fin > 8 GHz -10 0 dBm Sine Wave or Square Wave Input [1] -10 10 dBm Divider Output Characteristics Output Power (N = 1 , = 2, S0 = H, S1 = L, S2 = L 162 mA 3 Bit [1] Square wave input waveform is


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PDF HMC862LP3E HMC862LP3E ATC530L hmc862 ATC53
1996 - 8038 function generator

Abstract: 8038 function generator application Harris AN013 ICL8038 function generator frequency generator 8038 8038 MAX 8038 8038 GENERATOR 8038 waveform generator triangle wave application note
Text: sine-wave and the 1 state of the square wave ." Also, "the falling portion of the triangle and sine wave , ., ±15V) the external capacitor (pin 10) can be shorted to ground so that the sine wave and triangle wave , The 8038 is a function generator capable of producing sine , square , triangular, sawtooth and pulse , the circuit schematic at pin 8 in the upper left hand corner. From pin 8 to pin 5 we have the , buffer the sine wave output without loading it down? Answer The simplest circuit is a simple op amp


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PDF AN013 ICL8038 1N914 2N4392 8038 function generator 8038 function generator application Harris AN013 ICL8038 function generator frequency generator 8038 8038 MAX 8038 8038 GENERATOR 8038 waveform generator triangle wave application note
Not Available

Abstract: No abstract text available
Text: similar to non 50% duty cycle square waves. A sine wave input with even harmonics less than -15 dBc is , similar to non 50% duty cycle square waves. A sine wave input with even harmonics less than -15 dBc is , recommended. LO frequencies below 100 kHz are acceptable, providing that the LO signal is square wave . Above 100 kHz a sine wave signal is acceptable. The quadrature accuracy of the LO/2 frequency into the mixers is affected by the duty cycle of the LO input signal. Square wave signals with other than 50


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PDF RF2702 7341-D RF2702-3 T004131 RF2702 RF2702-4 1DD4131
2009 - resistor array 10k

Abstract: No abstract text available
Text: frequencies may be limited by available counter division ratio. [2] Square wave input achieves best phase noise at lower ref. frequency (see sine & square wave comparison plots) Gain = Vpp / 2 Rad. @ 10 kHz Offset @ 100 MHz Square Wave Ref. Input Pin= 0 dBm 100 MHz Input Frequency -10 2000 0.32 -153 310 Conditions Sine or Square Wave Input Square Wave Input [2] 100 MHz Frequency -5 7000 80 +5 [1] Min. 1300 , / 698LP5E v02.0309 7 GHz INTEGER N SYNTHESIZER (N = 12 - 259) Phase Noise Floor [1][2] Ref = Sine Wave


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PDF HMC698LP5 698LP5E resistor array 10k
SQUARE WAVE TO SINE WAVE schematic diagram

Abstract: RF2702 micro waves RF2752
Text: relative to the internal DC reference point. For this reason, distorted LO sine wave signals will degrade performance in a fashion similar to non 50% duty cycle square waves. A sine wave input with even harmonics , performance in a fashion similar to non 50% duty cycle square waves. A sine wave input with even harmonics , the LO signal is square wave . Above 100 kHz a sine wave signal is acceptable. The quadrature accuracy , acceptable, providing that the LO signal is square wave . Above 100 kHz a sine wave signal is acceptable. The


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PDF RF2752~ RF2702 7341-D RF2702-4 SQUARE WAVE TO SINE WAVE schematic diagram micro waves RF2752
2008 - Not Available

Abstract: No abstract text available
Text: limited by available counter division ratio. @ 10 kHz Offset @ 100 MHz Square Wave Ref. Input Pin= 0 dBm 100 MHz Input Frequency -10 2000 -153 310 Conditions Sine or Square Wave Input * Square Wave Input 100 , [1][2} Ref = Sine Wave , Vcc = 4.75V 0 SSB PHASE NOISE (dBc/Hz) SSB PHASE NOISE (dBc/Hz) -20 -40 -60 -80 -100 -120 -140 -160 -180 2 10 3 4 5 6 Phase Noise Floor [1][2} Ref = Square Wave , Vcc = 4.75V , SMT 8-3 OFFSET FREQUENCY (Hz) OFFSET FREQUENCY (Hz) Phase Noise Floor [1][2} Ref = Sine Wave


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PDF HMC698LP5 698LP5E
2008 - Not Available

Abstract: No abstract text available
Text: frequencies may be limited by available counter division ratio. [2] Square wave input achieves best phase noise at lower ref. frequency (see sine & square wave comparison plots) @ 10 kHz Offset @ 100 MHz Square Wave Ref. Input Pin= 0 dBm 100 MHz Input Frequency -10 2000 -153 310 Conditions Sine or Square Wave Input [1] Square Wave Input [2] 100 MHz Frequency -5 7000 80 +5 Min. 1300 10 +5 Typ. Max. Units MHz MHz , (N = 12 - 259) Phase Noise Floor [1][2] Ref = Sine Wave , Vcc = 4.75V -100 SSB PHASE NOISE (dBc/Hz


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PDF HMC698LP5 698LP5E
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