manufacturer:
Operating Temperature:
Number of Circuits:
Current - Supply:
Output Type:
Current - Output / Channel:
Gain Bandwidth Product:
Voltage - Input Offset:
Odonata Lepidoptera products 9
Image part manufacturer quantitas partus tempus Unit Price buy Description Operating Temperature Package / Case Supplier Device Package Number of Circuits Current - Supply Output Type Current - Output / Channel Gain Bandwidth Product Voltage - Input Offset
HA1630D06MMEL-E
Renesas Electronics America
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 3.6MHZ 8MMPAK
-40°C ~ 85°C 8-TSSOP,8-MSOP (0.110",2.80mm Width) - 2 1.6mA - 6.5mA 3.6MHz 4mV
HA1630Q06TELL-E
Renesas Electronics America
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 3.6MHZ 8TSSOP
-40°C ~ 85°C 14-TSSOP (0.173",4.40mm Width) 14-TSSOP 4 3.2mA - 6.5mA 3.6MHz 4mV
HA1630D06TEL-E
Renesas Electronics America
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 3.6MHZ 8TSSOP
-40°C ~ 85°C 8-TSSOP (0.173",4.40mm Width) 8-TSSOP 2 1.6mA - 6.5mA 3.6MHz 4mV
HA1630D06MMEL-E
Renesas Electronics America
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 3.6MHZ 8MMPAK
-40°C ~ 85°C 8-TSSOP,8-MSOP (0.110",2.80mm Width) - 2 1.6mA - 6.5mA 3.6MHz 4mV
HA1630Q06TELL-E
Renesas Electronics America
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 3.6MHZ 8TSSOP
-40°C ~ 85°C 14-TSSOP (0.173",4.40mm Width) 14-TSSOP 4 3.2mA - 6.5mA 3.6MHz 4mV
HA1630D06TEL-E
Renesas Electronics America
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 3.6MHZ 8TSSOP
-40°C ~ 85°C 8-TSSOP (0.173",4.40mm Width) 8-TSSOP 2 1.6mA - 6.5mA 3.6MHz 4mV
MAX44281OANS+T
Maxim Integrated
Quaestiones
-
-
MOQ: 2500  MPQ: 1
IC OPAMP GP 15MHZ RRO 4WLP
-40°C ~ 125°C 4-UFBGA,WLBGA 4-WLP (0.84x0.84) 1 700μA Rail-to-Rail 50mA 15MHz 20μV
MAX44281UANS+T
Maxim Integrated
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 15MHZ RRO 4WLP
-40°C ~ 125°C 4-UFBGA,WLBGA 4-WLP (0.84x0.84) 1 700μA Rail-to-Rail 50mA 15MHz 20μV
MAX44281VANS+T
Maxim Integrated
Quaestiones
-
-
MOQ: 0  MPQ: 1
IC OPAMP GP 15MHZ RRO 4WLP
-40°C ~ 125°C 4-UFBGA,WLBGA 4-WLP (0.84x0.84) 1 700μA Rail-to-Rail 50mA 15MHz 20μV