IP3M10
Seme LAB
52.63kb
200ma dual h-bridge. SEME IP1M10 SERIES IP1M12 SERIES The IP1M10 and IP1M12 series each contain two full H-bridge power drivers capable of delivering 2
TAGS
📁 Related Datasheet
IP3M12 - 200mA DUAL H-BRIDGE
(Seme LAB)
LAB
TOP VIEW
+V O A 1 VC A 2 VS S 3
14 13 12 11 10 9 8
SEME
IP1M10 SERIES IP1M12 SERIES
200mA DUAL H-BRIDGE
–V O A VE A
PWM A DIR A GND
VE B –V O .
IP3002 - Power Factor Correction
(Interpion semiconductor)
..
IP3002 / I3002
Power Factor Correction
DESCRIPTIONS
It is adaptable to a discontinuous mode of operation that the IP3002 is PFC (.
IP3005 - Ultra-high precision built-in MOSFET single-cell lithium battery protection
(INJOINIC)
Translated from Chinese (Simplified) to English - .onlinedoctranslator.
IP3005
Ultra-high precision built-inMOSFETSingle lithium battery prote.
IP3023 - Wireless Network Processor
(Ubicom)
PRELIMINARY
May 21, 2003
IP3023™ Wireless Network Processor
250 MIPS 8-Way Multithreaded Processor Optimized for Network Connectivity
1.0
Product H.
IP3088CX10 - Passive LC-filter Network
(NXP)
IP3088CX5; IP3088CX10; IP3088CX15; IP3088CX20
Rev. 01 — 12 February 2010
..
Integrated 2, 4, 6 and 8-channel passive LC-filter netw.
IP3088CX15 - Passive LC-filter Network
(NXP)
IP3088CX5; IP3088CX10; IP3088CX15; IP3088CX20
Rev. 01 — 12 February 2010
..
Integrated 2, 4, 6 and 8-channel passive LC-filter netw.
IP3088CX20 - Passive LC-filter Network
(NXP)
IP3088CX5; IP3088CX10; IP3088CX15; IP3088CX20
Rev. 01 — 12 February 2010
..
Integrated 2, 4, 6 and 8-channel passive LC-filter netw.
IP3088CX5 - Passive LC-filter Network
(NXP)
IP3088CX5; IP3088CX10; IP3088CX15; IP3088CX20
Rev. 01 — 12 February 2010
..
Integrated 2, 4, 6 and 8-channel passive LC-filter netw.
IP3101 - Versatile Gate Driver
(Interpion)
..
IP3101
Versatile Gate Driver
DESCRIPTIONS
The IP3101 provides simple and high performance control functions for the half bridge L.
IP3103 - Ultra-low-power single-cell lithium battery protection
(INJOINIC)
IP3103
、
1
:
VOV:3.5V~4.6V(Step:5mV) VOV :±15mV
VOVR:3.1V~4.6Vnote1 VOVR :±50mV
VUV:2V~3V(Step:10mV) VUV :±50mV
VUVR:2V~3.4Vnote2 .