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HA456CM

44 Termination 1.27mm +-5V Analog Switch 44 Pin 5V LCC


  • Manufacturer: Intersil (Renesas Electronics America)
  • Nocochips NO: 391-HA456CM
  • Package: LCC
  • Datasheet: PDF
  • Stock: 428
  • Description: 44 Termination 1.27mm +-5V Analog Switch 44 Pin 5V LCC (Kg)

Details

Tags

Parameters
Mount Surface Mount
Package / Case LCC
Number of Pins 44
Packaging Bulk
Published 2000
JESD-609 Code e0
Part Status Discontinued
Number of Terminations 44
Terminal Finish Tin/Lead (Sn/Pb)
Max Operating Temperature 70°C
Min Operating Temperature 0°C
HTS Code 8542.39.00.01
Subcategory Multiplexer or Switches
Terminal Position QUAD
Terminal Form J BEND
Number of Functions 1
Supply Voltage 5V
Terminal Pitch 1.27mm
Output SEPARATE OUTPUT
Pin Count 44
Qualification Status Not Qualified
Power Supplies +-5V
Temperature Grade COMMERCIAL
Number of Channels 8
Analog IC - Other Type CROSS POINT SWITCH
Operating Supply Current 68mA
Supply Type Dual
Supply Current-Max (Isup) 83mA
Neg Supply Voltage-Nom (Vsup) -5V
Off-state Isolation-Nom 70 dB
Switching BREAK-BEFORE-MAKE
Switch-on Time-Max 185ns
Drain to Source Resistance 250mOhm
RoHS Status RoHS Compliant
Lead Free Contains Lead

HA456CM Overview


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of the device should remain within the range of {0}.It is recommended to keep the device's resistance at {0}.There should be a resistance of {0} on the device.Ideally, the device resistance should stay within the range of {0}.It is recommended that the device resistance remain at {0}.It is important that the resistance of the device remain within the range of {0}.It is recommended that the device resistance be maintained within the range of {0}.This part can operate supply current at {0}.The part can be operated at {0} supply current.The supply current for this part can be set to {0}.Using a supply current of {0} will allow this part to operate.When the supply current is at {0}, the part can operate.There is no problem operating this part at {0} supply current.Parts that operate at {0} supply current can be used.It is possible to operate this part with a supply current of {0}.With a supply current of {0}, this part will be able to run.A supply current of {0} can be used with this part 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chip's operating supply voltage is stated to be at the range of {0}.According to its manufacturer, this chip operates at a voltage of {0}.A voltage of {0} is stated for the operating supply voltage of this chip.A voltage range of {0} is listed for this chip's operating supply voltage.According to its specification, this chip runs on an operating supply voltage of {0}.A {0} operating voltage is specified for this chip.In accordance with its specifications, this chip operates at a supply voltage of {0}.It runs on {0} voltage according to its specification.Chip specifications call for a voltage of {0} for the operating supply.A {0} voltage operating supply voltage is specified for this chip.This part's maximum supply voltage (Vsup) should not be more than {0}.Vsup (supply voltage) should not exceed {0}.The maximum supply voltage of this part (Vsup) should not exceed {0}.In order to ensure that this part is operating properly, its maximum supply voltage (Vsup) should not exceed {0}.Voltage (Vsup) should not exceed {0} for this part.Voltage supply (Vsup) for this part should not exceed {0}.In this part, the maximum supply voltage (Vsup) should not exceed {0}.In order to avoid damage to the part, the maximum supply voltage (Vsup) should not exceed {0}.In order for the part to function properly, the maximum supply voltage (Vsup) should not exceed {0}.There should not be any more than {0} voltage supply for this part.Conduct this part under the dual supply voltage of {0}.The dual supply voltage should be {0}.Ensure that the dual supply voltage is {0}.Conduct this part at {0} dual supply voltage.Under {0}, conduct this part.This part should be operated at dual supply voltage {0}.It is recommended that you conduct this part under the dual supply voltage of {0}.The dual supply voltage should be set to {0} in order to conduct this part.The dual supply voltage must be {0} for this part to be conducted.Ensure the dual supply voltage of {0} is applied to this part.To ensure stable power, it runs dual supply voltage up to {0}.Dual supply voltages up to {0} ensure stable power.In order to ensure stable power, it runs dual supply voltages up to {0}.A dual supply voltage of {0} is used to make sure stable power is provided.With dual supply voltage up to {0}, it ensures stable power.Dual supply voltages are used to ensure stable power up to {0}.The system runs on dual supply voltages up to {0} to ensure stability.Up to {0} voltages are run to ensure stable power.It runs dual supply voltages up to {0} in order to ensure stable power.The unit operates on dual supply voltages up to {0} in order to ensure stable power supply.There are {0} inputs to operate.To operate, there are {0} inputs.Inputs to be operated are {0}.Operating on {0} inputs is possible.Operation requires {0} inputs.It is possible to operate {0} inputs.Operation can be performed on {0} inputs.It is necessary to operate on {0} inputs.A total of {0} inputs are available for operation.To operate, there are only {0} inputs available.It is suggested that it be used at temperatures below {0}.The product should be used at temperatures below {0}.At temperatures below {0}, it is recommended that it be used.Using it below {0} temperatures is recommended.Temperatures below {0} are recommended for its use.A temperature below {0} is recommended for use.Temperatures below {0} should be used.It is recommended to use it at temperatures below [0}.There is a recommendation that it be used at temperatures below [0}.In order to get the best results, it should be utilized at temperatures below {0}.There are {0} outputs on this component.This component has {0} outputs.As far as this component is concerned, there are {0} outputs.{0} outputs are available on this component.It has {0} outputs.A component such as this has {0} outputs.Currently, there are {0} outputs available on this component.On this component, {0} outputs are available.This component has a total of {0} outputs available for use.It is possible for this component to have {0} outputs.To activate this device, the temperature should not be less than {0}.This device must be activated at a temperature greater than {0}.Temperatures below {0} are not suitable for activating this device.The temperature should not be lower than {0} for this device to operate.Activation of this device requires a temperature of at least {0}.It is important that the temperature of the device does not fall below [0}.In order for this device to be activated, the temperature should not be below {0}.This device will not function if the temperature is below {0}.There must be a temperature greater than {0} to activate this device.It is required that the device be activated at a temperature greater than {0}.The maximum supply current (Isup) must not exceed {0}.There must be no more than {0} supply current (Isup).It is prohibited to exceed {0} in terms of supply current (Isup).Current supply (Isup) cannot exceed {0}.If Isup exceeds {0}, the power supply must be turned off.It is forbidden to exceed {0} for the supply current (Isup).Isup cannot exceed {0} as the maximum supply current.Maximum supply current (Isup) must not exceed {0}.Ensure that the maximum supply current (Isup) does not exceed the limit {0}.In order to operate this device, it is essential that the maximum supply current (Isup) not exceed {0}.It has a maximum supply current of {0}.{0} is its maximum supply current.A maximum supply current of {0} is available.A maximum supply current of {0} can be applied to it.There is a maximum supply current of {0}.This device has a maximum supply current of {0}.In terms of supply current, it has a maximum of {0}.A maximum supply current of {0} is available from this device.During normal operation, the maximum current that can be supplied to it is {0}.With a maximum supply current of {0}, it is suitable for use in most applications.The {0} series include this electrical component.Electrical components of the {0} series include this one.Electrical components such as this can be found in the {0} series.There is an electrical component like this in the {0} series.This electrical component is part of the {0} series.Electrical components of this type are included in the {0} series.Among the electrical components included in the {0} series is this one.The {0} series contains this electrical component.This electrical component is included in the series {0}.It is a component of the {0} series.Please keep the following points in mind while you use the device: {0}.In order to maximize the functionality of the device, please keep the following points in mind: {0}.While using the device, you should keep the following points in mind: {0}.When using the device, please keep these things in mind: {0}.As you use the device, please keep the following points in mind: {0}.You should remember the following when using the device: {0}.Keep the following points in mind when using the device: {0}.During the use of the device, please be aware of the following points: {0}It is important that you keep the following things in mind while using the device: {0}.In order to make use of this device as safely as possible, please remember the following points: {0}.

HA456CM Features



HA456CM Applications


There are a lot of Intersil (Renesas Electronics America) HA456CM Special Purpose Analog Switches applications.

  • Linear distance measurement
  • Code conversion
  • Advanced breast cancer treatments
  • Translating the decimal values to the binary
  • Material handling
  • Textiles
  • Automatic health monitoring systems
  • Web tensioning
  • High-performance memory-decoding or data-routing applications
  • Registration mark timing

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