2002 - Not Available
Abstract: No abstract text available
Text: General Description of IC Bias and Modulation Current Settings Bias current supply to the laser diode is , temperature and aging of the laser . The bias current is fed to the anode of the laser diode through a ferrite , the output over temperature. The IMOD range is from 1mA to 18mA for a 50⦠laser diode dynamic , temperature by forcing the laser diode to generate a constant photocurrent through the photodiode. The user , 0.1mA to 1.0mA photocurrent within the laser diodes normal operating range. The VCSEL LD driver can
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RF3750
125Gbps
10Gigabit
125Gbps
RF3750
850nm
devic502301,
6mmx35
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2002 - PCB Rogers RO4003
Abstract: laser diode VCSEL to ic laser diode driver circuit automatic power control BLOCK diagram of light sensitive alarm
Text: Modulation Current Settings Bias current supply to the laser diode is generated on-chip and controlled by an , . The bias current is fed to the anode of the laser diode through a ferrite inductor (L). This current , 1mA to 18mA for a 50 laser diode dynamic resistance. Chart 1 and Chart 2 will aid in selection of , Laser Diode Automatic Power Control Loop (APC) The APC loop works to maintain an average optical power over temperature by forcing the laser diode to generate a constant photocurrent through the photodiode
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RF3750
10Gigabit
125Gbps
RF3750
850nm
RO4003
PCB Rogers RO4003
laser diode VCSEL to ic
laser diode driver circuit automatic power control
BLOCK diagram of light sensitive alarm
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2002 - RO4004
Abstract: laser diode driver circuit automatic power control RF inductor 13.56 MHz Rogers RO4003 RF3750 diode t25 13 Go
Text: intended to drive 850nm Vertical Cavity Surface Emitting Laser ( VCSEL ) based light sources. The device , and Modulation Current Settings Bias current supply to the laser diode is generated on-chip and , of the laser . The bias current is fed to the anode of the laser diode through a ferrite inductor (L). , . Bypass capacitor. Bypass capacitor. EMCORE 8585-8312 VCSEL . Common cathode laser . TO can is laid on its , as close to the laser diode pin as possible. N/A N/A 6 pin DC connector. 10k Adjusting this
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10Gigabit
RF3750
125Gbps
125Gbps
RF3750
850nm
RO4003
RO4004
laser diode driver circuit automatic power control
RF inductor 13.56 MHz
Rogers RO4003
diode t25 13 Go
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2003 - Not Available
Abstract: No abstract text available
Text: M02069 3.3 or 5 Volt VCSEL /FP Laser Driver IC for Applications to 4.3 Gbps Data Sheet Advance , Volt VCSEL /FP Laser Driver IC for Applications to 4.3 Gbps TABLE OF CONTENTS 02069-DSH-001-A 9/03 , .36 M02069 3.3 or 5 Volt VCSEL /FP Laser Driver IC for Applications to 4.3 Gbps FEATURES , Laser Driver IC for Applications to 4.3 Gbps APPLICATION DIAGRAM, COMMON ANODE VCSEL SINGLE-ENDED AC , Latched Fault TX Disable M02069 3.3 or 5 Volt VCSEL /FP Laser Driver IC for Applications to 4.3
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M02069
02069-DSH-001-A
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2002 - Not Available
Abstract: No abstract text available
Text: Channel General Description of IC Bias and Modulation Current Settings Bias current supply to the laser , Current of Laser Diode Automatic Power Control Loop (APC) The APC loop works to maintain an average optical power over temperature by forcing the laser diode to generate a constant photocurrent through the , output 0.1mA to 1.0mA photocurrent within the laser diodes normal operating range. The VCSEL LD driver , VCSEL driver is also AC-coupled, allowing more voltage headroom for the Laser Diode . The value chosen
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RF3754
125Gbps)
10Gigabit
125Gbps
RF3754
850nm
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2002 - PIN photodiode 850nm
Abstract: diode t25 4 j6
Text: laser driver intended to drive an 850nm VCSEL . The RFW3754 features four differential input and , supply to the laser diode is generated on-chip and controlled by an Automatic Power Control (APC) loop , temperature. The IMOD range is from 1mA to 18mA for a 50 laser diode dynamic resistance. Chart 1 and Chart 2 , Laser Diode Automatic Power Control Loop (APC) The APC loop works to maintain an average optical power over temperature by forcing the laser diode to generate a constant photocurrent through the photodiode
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10Gigabit
RFW3754
850nm
125Gbps
125Gbps/channel.
RFW3754
RO4003
PIN photodiode 850nm
diode t25 4 j6
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2006 - Not Available
Abstract: No abstract text available
Text: 1310 nm Fabry-Perot (FP) Laser Diode Lasers â TO Package Preliminary FP , Advanced Optical Components 1310 nm Fabry-Perot (FP) Laser Diode Lasers â TO Package Preliminary , â TO Package Preliminary FP-1310-4I-56A Pin-out 1 = Case (isolated) 2 = Laser diode , Components 1310 nm Fabry-Perot (FP) Laser Diode Lasers â TO Package Preliminary FP , Components 1310 nm Fabry-Perot (FP) Laser Diode Lasers â TO Package Preliminary FP
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FP-1310-4I-56A
1-866-MY-VCSEL
1-866-MY-VCSEL
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2002 - FERRITE BEAD 1000 OHM 0805
Abstract: No abstract text available
Text: close to IC as possible. EMCORE 8585-8312 VCSEL . Common cathode laser . TO can is laid on its side and , 1.4V to VCC System State Normal Failure of Photo or Laser Diode N/A Alarm Out Gnd VCC VCC , Channel General Description of IC Bias and Modulation Current Settings Bias current supply to the laser , temperature. The IMOD range is from 1mA to 18mA for a 50 laser diode dynamic resistance. Chart 1 and Chart 2 , Figure 4. Transient Current of Laser Diode Automatic Power Control Loop (APC) The APC loop works to
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10Gigabit
RF3754
125Gbps)
125Gbps
RF3754
850nm
RO4003
FERRITE BEAD 1000 OHM 0805
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2002 - diode t25 4 j6
Abstract: ro4003 rogers microstrip PIN photodiode 850nm
Text: capacitor for laser input, should be as close to IC as possible. EMCORE 8585-8312 VCSEL . Common cathode , output trace on the ' Laser Mod' pin. This path provides the modulated current to the VCSEL diode , laser driver intended to drive an 850nm VCSEL . The RFW3754 features four differential input and , supply to the laser diode is generated on-chip and controlled by an Automatic Power Control (APC) loop , temperature. The IMOD range is from 1mA to 18mA for a 50 laser diode dynamic resistance. Chart 1 and Chart 2
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10Gigabit
RFW3754
850nm
125Gbps
125Gbps/channel.
RFW3754
RO4003
diode t25 4 j6
ro4003 rogers microstrip
PIN photodiode 850nm
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2002 - DIODE T25 4 c8
Abstract: NF521 diode t25 4 j8
Text: Current Settings Bias current supply to the laser diode is generated on-chip and controlled by an , . The bias current is fed to the anode of the laser diode through a ferrite inductor (L). This current , 1mA to 18mA for a 50 laser diode dynamic resistance. Chart 1 and Chart 2 will aid in selection of , Laser Diode Automatic Power Control Loop (APC) The APC loop works to maintain an average optical power over temperature by forcing the laser diode to generate a constant photocurrent through the photodiode
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RF3754
10Gigabit
125Gbps
RF3754
850nm
DIODE T25 4 c8
NF521
diode t25 4 j8
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Laser diode VCSEL driver circuit 850 nm
Abstract: VCSEL array driver laser diode VCSEL to ic Vixel array VCSEL driver IC laser diode VCSEL application High Speed characteristics of VCSELs GaAs 850 nm Infrared Emitting Diode n type laser diode driver
Text: , especially in the driver IC for the PAROLI system. All these specifications ultimately led to the VCSEL , 14 monolithically integrated laser components.The enlarged sections show a VCSEL component with , in laser diodes over the past few years have led to the emergence of new products with outstanding , introduction to VCSEL technology was already published in Components 4/98. The use of these new lasers will , n contact Fig. 1 Schematic representation of a vertical cavity surface emitting laser diode
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2003 - Demo Laser Technology
Abstract: sot-23 5pin h2 FRS transceiver circuit diagram MIL-G-45204C IPC-6000 DC669A CR05-49R9F BLM15AG DC499 LT1762EMS8-3
Text: demo board or the LTC5100 VCSEL driver: The LTC5100 is intended to drive laser diodes for fiber , state that produces excessive optical power from the laser . · Before connecting a laser diode to the , any changes to the laser diode or optical fiber. Disabling the transmitter stops current flow to the , simulated. 6. If the laser has a monitor diode , you can connect it to either one of the two "MD" header , depicted in Figure 5. If the laser has a monitor diode , follow the instructions in the white boxes to
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DC499
LTC5100
DC499
155Mbps
LTC5100
LTC5100.
dc499f
Demo Laser Technology
sot-23 5pin h2
FRS transceiver circuit diagram
MIL-G-45204C
IPC-6000
DC669A
CR05-49R9F
BLM15AG
LT1762EMS8-3
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Modulating VCSELs
Abstract: MAX3656 MAX3735 MAX3735A MAX3737 MAX3740 MAX3741 MAX3850 MAX3996 HFAN-09
Text: and series resistance of a typical VCSEL is larger than an edge-emitting laser diode . These factors , the forward voltage of the VCSEL is too large, it may not be possible to DC couple the laser to the , laser driver adjusts the bias current in order to maintain a constant monitor diode current (IMD , Introduction 2.1 The MAX3735A is a DC-coupled SFP laser driver designed for data rates up to 2.7Gbps , , edgeemitting, common-anode lasers, but it can also be used to drive a variety of other laser configurations
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HFDN-26
MAX3735A
MAX3735A
MAX3735
Modulating VCSELs
MAX3656
MAX3737
MAX3740
MAX3741
MAX3850
MAX3996
HFAN-09
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microlens array VCSEL
Abstract: laser diode VCSEL to ic laser diode array low power vcsel array Princeton Technology class D vcsel 100w 0028c prince fiber pumping coupler Princeton Technology
Text: Surface-Emitting Laser technology ( VCSEL for short), enabling us to manufacture and deliver laser diodes with , many of the silicon IC packaging and cooling technology can be applied to VCSEL arrays. Princeton Optronics has taken the VCSEL technology to very high power levels by developing very large (5mm x 5mm) 2 , applications. Princeton Optronics is the first company to introduce such high power VCSEL products to the , therefore straightforward to process 2-D arrays of small VCSEL devices driven in parallel to obtain higher
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mid-90
15K/W
microlens array VCSEL
laser diode VCSEL to ic
laser diode array low power
vcsel array
Princeton Technology class D
vcsel 100w
0028c
prince
fiber pumping coupler
Princeton Technology
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2004 - HFE4191-541
Abstract: VCSEL 10g CHIP laser diode VCSEL to ic VCSEL 10G PROCESS SDD11 MAX3740A MAX3795 MAX3795ETG
Text: () 10G 1Gbps to 4.25Gbps Multirate VCSEL Driver with Diagnostic Monitors MONITOR DIODE , MD input is connected to the cathode of a monitor diode , which is used to sense laser power. The , laser diode as short as possible. Use multilayer boards with uninterrupted ground planes to minimize , 19-3387; Rev 0; 8/04 1Gbps to 4.25Gbps Multirate VCSEL Driver with Diagnostic Monitors The , features. The automatic power control (APC) adjusts the laser bias current to maintain average optical
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25Gbps
MAX3795
25Gbps.
MAX3795
HFE4191-541
VCSEL 10g CHIP
laser diode VCSEL to ic
VCSEL 10G PROCESS
SDD11
MAX3740A
MAX3795ETG
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2010 - Ethernet to fiber optic converter circuit
Abstract: APC 2010 DIGITAL CURRENT SOURCE Laser diode VCSEL driver DS1858 MAX3740A MAX3740AETG EMCORE VCSEL HFAN-2 laser diode VCSEL to ic
Text: cathode of a monitor diode , which is used to sense laser power. The BIAS output is connected to the , power control (APC) adjusts the laser bias current to maintain average optical power over changes in , . The MAX3740A operates up to 3.2Gbps. It can switch up to 15mA of laser modulation current and source , various VCSEL packages, including low-cost TO -46 headers. The MAX3740A safety circuit detects faults , Optional Peaking Current to Improve VCSEL Edge Speed Supports Common Cathode and Differential
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MAX3740A
MAX3740A
Ethernet to fiber optic converter circuit
APC 2010
DIGITAL CURRENT SOURCE
Laser diode VCSEL driver
DS1858
MAX3740AETG
EMCORE VCSEL
HFAN-2
laser diode VCSEL to ic
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2004 - Not Available
Abstract: No abstract text available
Text: ¦) 10G 1Gbps to 4.25Gbps Multirate VCSEL Driver with Diagnostic Monitors MONITOR DIODE , MD input is connected to the cathode of a monitor diode , which is used to sense laser power. The , and laser diode as short as possible. Use multilayer boards with uninterrupted ground planes to , 19-3387; Rev 0; 8/04 1Gbps to 4.25Gbps Multirate VCSEL Driver with Diagnostic Monitors The , features. The automatic power control (APC) adjusts the laser bias current to maintain average optical
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25Gbps
MAX3795
25Gbps.
MAX3795
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2001 - Not Available
Abstract: No abstract text available
Text: 19-2194; Rev 0; 10/01 +3.0V to +5.5V, 2.5Gbps VCSEL and Laser Driver General Description The , +3.0V to +5.5V, 2.5Gbps VCSEL and Laser Driver ELECTRICAL CHARACTERISTICS (continued) (VCC = , +3.0V to +5.5V, 2.5Gbps VCSEL and Laser Driver MAX3996 Typical Operating Characteristics (VCC = +3.3V , +3.0V to +5.5V, 2.5Gbps VCSEL and Laser Driver Typical Operating Characteristics (continued , 5 +3.0V to +5.5V, 2.5Gbps VCSEL and Laser Driver MAX3996 Pin Description PIN 1 2 3, 9 4 5
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MAX3996
MAX3996
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2002 - IEC825
Abstract: MAX3996 MAX3996CGP
Text: 19-2194; Rev 1; 2/02 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver Features o 9psP , operates over a temperature range of 0°C to +70°C. MAX3996 3.0V to 5.5V, 2.5Gbps VCSEL and Laser , Gbps 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver (VCC = 3.0V to 5.5V, TA = 0°C to +70°C , ) 100n 30 35 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver STARTUP WITH SLOW , otherwise noted.) 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver MAX3996 Pin Description PIN NAME
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20-Pin
MAX3996CGP
MAX3996
IEC825
MAX3996
MAX3996CGP
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2010 - Not Available
Abstract: No abstract text available
Text: requirements and extending the life of the laser . The MD input is connected to the cathode of a monitor diode , Considerations To minimize inductance, keep the connections between the MAX3740A output pins and laser diode as , power control (APC) adjusts the laser bias current to maintain average optical power over changes in , . The MAX3740A operates up to 3.2Gbps. It can switch up to 15mA of laser modulation current and source , various VCSEL packages, including low-cost TO -46 headers. The MAX3740A safety circuit detects faults
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MAX3740A
MAX3740A
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2003 - TOSA 10G
Abstract: SC-TOSA DS1858 MAX3740A MAX3740AETG EMCORE VCSEL t244 resistor 1M
Text: cathode of a monitor diode , which is used to sense laser power. The BIAS output is connected to the , Considerations To minimize inductance, keep the connections between the MAX3740A output pins and laser diode as , operates up to 3.2Gbps. It can switch up to 15mA of laser modulation current and source up to 15mA of , DS1858 to meet SFF-8472 timing and diagnostic requirements. The MAX3740A accommodates various VCSEL , Current 1mA to 15mA Bias Current Optional Peaking Current to Improve VCSEL Edge Speed Supports
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MAX3740A
DS1858
SFF-8472
TOSA 10G
SC-TOSA
MAX3740AETG
EMCORE VCSEL
t244
resistor 1M
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2004 - MAX3996
Abstract: laser diode VCSEL to ic IEC825 MAX3996CGP T2044-3
Text: 19-2194; Rev 3; 5/04 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver The MAX3996 is a high-speed , General Description MAX3996 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver ABSOLUTE MAXIMUM RATINGS , Gbps 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver (VCC = 3.0V to 5.5V, TA = 0°C to +70°C , ) 100n 30 35 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver STARTUP WITH SLOW , otherwise noted.) 3.0V to 5.5V, 2.5Gbps VCSEL and Laser Driver MAX3996 Pin Description PIN NAME
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MAX3996
MAX3996
MAX3996CGP
G2044-3
MAX3996CTP+
T2044-3
laser diode VCSEL to ic
IEC825
MAX3996CGP
T2044-3
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2003 - HFAN-2
Abstract: amplitude modulation transmitter circuit diagram EMCORE VCSEL SC-TOSA 10G laser driver EMCORE 8585 SC TOSA TOSA 10G "Fiber Optic Transmitters" EMCORE TOSA for 10G ER BAV99
Text: cathode of a monitor diode , which is used to sense laser power. The BIAS output is connected to the , laser modulation current and source up to 15mA of bias current. Adjustable temperature compensation is , . The MAX3740 accommodates various VCSEL packages, including low-cost TO -46 headers. The MAX3740 safety , to maintain average optical power over changes in temperature and laser properties. The driver , mA % 3.2Gbps SFP VCSEL Driver with Diagnostic Monitors (VCC = +2.97V to +3.63V, TA =
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SFF-8472
MAX3740
DS1858
HFAN-2
amplitude modulation transmitter circuit diagram
EMCORE VCSEL
SC-TOSA
10G laser driver
EMCORE 8585 SC TOSA
TOSA 10G
"Fiber Optic Transmitters"
EMCORE TOSA for 10G ER
BAV99
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2006 - amplitude modulation transmitter circuit diagram
Abstract: EMCORE VCSEL 10G laser driver EMCORE photodiode EMCORE 8585 SC TOSA TOSA 10G laser transmitter circuit diagram "Fiber Optic Transmitters" automatic change over switch circuit diagram EMCORE TOSA for 10G ER
Text: cathode of a monitor diode , which is used to sense laser power. The BIAS output is connected to the , power control (APC) adjusts the laser bias current to maintain average optical power over changes in , . The MAX3740A operates up to 3.2Gbps. It can switch up to 15mA of laser modulation current and source , various VCSEL packages, including low-cost TO -46 headers. The MAX3740A safety circuit detects faults , Optional Peaking Current to Improve VCSEL Edge Speed Supports Common Cathode and Differential
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MAX3740A
amplitude modulation transmitter circuit diagram
EMCORE VCSEL
10G laser driver
EMCORE photodiode
EMCORE 8585 SC TOSA
TOSA 10G
laser transmitter circuit diagram
"Fiber Optic Transmitters"
automatic change over switch circuit diagram
EMCORE TOSA for 10G ER
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2002 - EMCORE 8585 SC TOSA
Abstract: TOSA 10G 10G laser driver BAV99 DS1858 MAX3740 MAX3740ETG EMCORE VCSEL
Text: cathode of a monitor diode , which is used to sense laser power. The BIAS output is connected to the , up to 3.2Gbps. It can switch up to 15mA of laser modulation current and source up to 15mA of bias , o 1mA to 15mA Bias Current o Optional Peaking Current to Improve VCSEL Edge Speed o Supports , to maintain average optical power over changes in temperature and laser properties. The driver , mA % 3.2Gbps SFP VCSEL Driver with Diagnostic Monitors (VCC = +2.97V to +3.63V, TA =
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MAX3740
DS1858
SFF-8472
EMCORE 8585 SC TOSA
TOSA 10G
10G laser driver
BAV99
DS1858
MAX3740ETG
EMCORE VCSEL
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