Analog Devices Inc. ADM1060ARU
- Part Number:
- ADM1060ARU
- Manufacturer:
- Analog Devices Inc.
- Ventron No:
- 5038095-ADM1060ARU
- Description:
- IC SUPERVIS/SEQUENC 7-CH 28TSSOP
- Datasheet:
- ADM1060ARU
Analog Devices Inc. ADM1060ARU technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. ADM1060ARU.
- Lifecycle StatusOBSOLETE (Last Updated: 3 weeks ago)
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / Case28-TSSOP (0.173, 4.40mm Width)
- Number of Pins28
- Operating Temperature-40°C~85°C TA
- PackagingTube
- SeriesSuper Sequencer®
- JESD-609 Codee0
- Pbfree Codeno
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations28
- ECCN CodeEAR99
- Terminal FinishTin/Lead (Sn85Pb15)
- HTS Code8542.39.00.01
- SubcategoryPower Management Circuits
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)240
- Number of Functions1
- Terminal Pitch0.65mm
- Reach Compliance Codenot_compliant
- Time@Peak Reflow Temperature-Max (s)30
- Base Part NumberADM1060
- OutputProgrammable
- Pin Count28
- Qualification StatusNot Qualified
- Power Supplies3/5V
- Number of Channels7
- Max Supply Voltage14.4V
- Min Supply Voltage2V
- Operating Supply Current3mA
- Max Supply Current5mA
- Adjustable ThresholdYES
- Watchdog TimerYes
- Voltage - ThresholdAdjustable/Selectable
- Number of Voltages Monitored7
- Undervoltage Threshold4.85V
- Overvoltage Threshold10V
- Height Seated (Max)1.2mm
- Width4.4mm
- RoHS StatusNon-RoHS Compliant
- Lead FreeContains Lead
ADM1060ARU Overview
As you can see, this power management is mounted through 28 terminals. There is a Tube-packaging method applied to IC management. To assist you, this IC power includes 1 functions. There are 7 channels available on this supervisor, and each channel has a different function. To assist you, this PMIC includes 28-TSSOP (0.173, 4.40mm Width) functions. It is a IC power that shares many benefits with other products from the Sequencer line. According to the specification, the package's peak reflow temperature is specified to be 240. When 7 is applied to the power ic, it conducts. The mount is attached to Surface Mount. In this case, this PMIC chip can be sub-categorized as a Power Management Circuits chip. It has a total of 28 pins that are attached to IC management. This power management has 28 pins. Supply voltage (Vsup) should be at least 2V for this power management. During this IC power, the maximum supply voltage (Vsup) should not exceed 14.4V volts. A Surface Mount mounting type is recommended. Temperature setting for the supervisors should be -40°C~85°C TA. As a result of this supervisor's operation, the output voltage is Programmable. There is a 3mA supply current present in the power management. A similar IC managements number of the manufacturer can always be found by using ADM1060, the base power ics number. A power supply of 3/5V watts is required for the operation of this power management. If you want to work with PMIC chip, you will need to supply PMIC chip with a temperature at least of 5mA. A PMIC from the well-known Super Sequencer® series of products is being offered here.
ADM1060ARU Features
Sequencer type
Minimum supply voltage of 2V
3mA operating supply current
ADM1060ARU Applications
There are a lot of Analog Devices Inc.
ADM1060ARU Voltage Supervisors applications.
emergency room
Medical-specific isolation transformer
Medical-specific insulation monitor
Transformer load monitoring equipment
External alarm
Display equipment
DC stabilized power supply module
Insulation fault location system
Magnetic resonance imaging
Stable power system
As you can see, this power management is mounted through 28 terminals. There is a Tube-packaging method applied to IC management. To assist you, this IC power includes 1 functions. There are 7 channels available on this supervisor, and each channel has a different function. To assist you, this PMIC includes 28-TSSOP (0.173, 4.40mm Width) functions. It is a IC power that shares many benefits with other products from the Sequencer line. According to the specification, the package's peak reflow temperature is specified to be 240. When 7 is applied to the power ic, it conducts. The mount is attached to Surface Mount. In this case, this PMIC chip can be sub-categorized as a Power Management Circuits chip. It has a total of 28 pins that are attached to IC management. This power management has 28 pins. Supply voltage (Vsup) should be at least 2V for this power management. During this IC power, the maximum supply voltage (Vsup) should not exceed 14.4V volts. A Surface Mount mounting type is recommended. Temperature setting for the supervisors should be -40°C~85°C TA. As a result of this supervisor's operation, the output voltage is Programmable. There is a 3mA supply current present in the power management. A similar IC managements number of the manufacturer can always be found by using ADM1060, the base power ics number. A power supply of 3/5V watts is required for the operation of this power management. If you want to work with PMIC chip, you will need to supply PMIC chip with a temperature at least of 5mA. A PMIC from the well-known Super Sequencer® series of products is being offered here.
ADM1060ARU Features
Sequencer type
Minimum supply voltage of 2V
3mA operating supply current
ADM1060ARU Applications
There are a lot of Analog Devices Inc.
ADM1060ARU Voltage Supervisors applications.
emergency room
Medical-specific isolation transformer
Medical-specific insulation monitor
Transformer load monitoring equipment
External alarm
Display equipment
DC stabilized power supply module
Insulation fault location system
Magnetic resonance imaging
Stable power system
ADM1060ARU More Descriptions
Processor Supervisor 7 Open Drain 28-Pin TSSOP Tube
Power Supply Management Circuit, Adjustable, 7 Channel, PDSO28
IC SUPERVISOR 7 CHANNEL 28TSSOP
IC SUPERVIS/SEQUENC 7-CH 28TSSOP
French Electronic Distributor since 1988
COMMUNICATIONS SUPVSEQ CIRCUIT I.C.
The ADM1060 is a programmable supervisory/sequencing device that offers a single chip solution for multiple power supply fault detection and sequencing in communications systems. In central offices, servers, and other infrastructure systems, a common backplane dc supply is reduced to multiple board supplies using dc-to-dc converters. These multiple supplies are used to power different sections of the board, such as 3.3 V logic circuits, 5 V logic circuits, DSP core, and DSP I/O circuits. There is usually a requirement that certain sections power up before others; for example, a DSP core may need to power up before the DSP I/O, or vice versa, to avoid damage, miscommunication, or latch-up. The ADM1060 facilitates this, providing supply fault detection and sequencing/combinatorial logic for up to seven independent supplies. The seven supply fault detectors consist of one high voltage detector (up to 14.4 V), two bipolar voltage detectors (up to 6 V or down to −6 V), and four positive low voltage detectors (up to 6 V). All of the detectors can be programmed to detect undervoltage, overvoltage, or out-ofwindow (undervoltage or overvoltage) conditions. The inputs to these supply fault detectors are via the VH (high voltage) pin, VBn (positive or negative) pins, and VPn (positive only) pins. Either the VH supply or one of the VPn supplies is used to power the ADM1060 (whichever is highest). This ensures that in the event of a supply failure, the ADM1060 is kept alive for as long as possible, thus enabling a reliable fault flag to be asserted and the system to be powered down in an ordered fashion. Other inputs to the ADM1060 include a watchdog detector (WDI) and four general-purpose inputs (GPIn). The watchdog detector can be used to monitor a processor clock. If the clock does not toggle (transition from low to high or from high to low) within a programmable timeout period (up to 18 sec.), a fail flag will assert. The four general-purpose inputs can be configured as logic buffers or to detect positive/negative edges and to generate a logic pulse or level from those edges. Thus, the user can input control signals from other parts of the system (e.g., RESET or POWER_GOOD) to gate the sequencing of the supplies supervised by the ADM1060. The ADM1060 features nine programmable driver outputs (PDOs). All nine outputs can be configured to be logic outputs, which can provide multiple functions for the end user such as RESET generation, POWER_GOOD status, enabling of LDOs, and watchdog timeout assertion. PDOs 1 to 4 have the added feature of being able to provide an internally charge-pumped high voltage for use as the gate drive of an external N-channel FET that could be placed in the path of one of the supplies being supervised. APPLICATIONS Central office systems Servers Infrastructure network boards High density, multivoltage system cards
Power Supply Management Circuit, Adjustable, 7 Channel, PDSO28
IC SUPERVISOR 7 CHANNEL 28TSSOP
IC SUPERVIS/SEQUENC 7-CH 28TSSOP
French Electronic Distributor since 1988
COMMUNICATIONS SUPVSEQ CIRCUIT I.C.
The ADM1060 is a programmable supervisory/sequencing device that offers a single chip solution for multiple power supply fault detection and sequencing in communications systems. In central offices, servers, and other infrastructure systems, a common backplane dc supply is reduced to multiple board supplies using dc-to-dc converters. These multiple supplies are used to power different sections of the board, such as 3.3 V logic circuits, 5 V logic circuits, DSP core, and DSP I/O circuits. There is usually a requirement that certain sections power up before others; for example, a DSP core may need to power up before the DSP I/O, or vice versa, to avoid damage, miscommunication, or latch-up. The ADM1060 facilitates this, providing supply fault detection and sequencing/combinatorial logic for up to seven independent supplies. The seven supply fault detectors consist of one high voltage detector (up to 14.4 V), two bipolar voltage detectors (up to 6 V or down to −6 V), and four positive low voltage detectors (up to 6 V). All of the detectors can be programmed to detect undervoltage, overvoltage, or out-ofwindow (undervoltage or overvoltage) conditions. The inputs to these supply fault detectors are via the VH (high voltage) pin, VBn (positive or negative) pins, and VPn (positive only) pins. Either the VH supply or one of the VPn supplies is used to power the ADM1060 (whichever is highest). This ensures that in the event of a supply failure, the ADM1060 is kept alive for as long as possible, thus enabling a reliable fault flag to be asserted and the system to be powered down in an ordered fashion. Other inputs to the ADM1060 include a watchdog detector (WDI) and four general-purpose inputs (GPIn). The watchdog detector can be used to monitor a processor clock. If the clock does not toggle (transition from low to high or from high to low) within a programmable timeout period (up to 18 sec.), a fail flag will assert. The four general-purpose inputs can be configured as logic buffers or to detect positive/negative edges and to generate a logic pulse or level from those edges. Thus, the user can input control signals from other parts of the system (e.g., RESET or POWER_GOOD) to gate the sequencing of the supplies supervised by the ADM1060. The ADM1060 features nine programmable driver outputs (PDOs). All nine outputs can be configured to be logic outputs, which can provide multiple functions for the end user such as RESET generation, POWER_GOOD status, enabling of LDOs, and watchdog timeout assertion. PDOs 1 to 4 have the added feature of being able to provide an internally charge-pumped high voltage for use as the gate drive of an external N-channel FET that could be placed in the path of one of the supplies being supervised. APPLICATIONS Central office systems Servers Infrastructure network boards High density, multivoltage system cards
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