
TE
CH
tm
overcharge detection voltage (VDET1) + 0.2V in the condition V2=0V. 
                                                                     T63H0008A
TM Technology, Inc. reserves the right 
P. 8                                    
Publication Date: Dec. 2003 
to change products or specifications without notice.                                                                          Revision:A 
The over-discharge detection delay time (tVDET2 ) is the time needed for VDO to change from "H" to "L" 
just after the V1 rapid decrease within 10us from the over-discharge detection voltage (VDET2) + 0.2V to 
the over-discharge detection voltage (VDET2) - 0.2V in the condition V2=0V. 
(10) Measurement Condition 10, Measurement Circuit 5 
(Over-current 1 detection delay time, Over-current 2 detection delay time, Load short-circuiting  
detection delay time, Abnormal charge current detection delay time ) 
Set V1=3.5V and V2=0V. Increase V2 from 0 V to 0.35 V momentarily (within 10 us) The time needed for 
VDO to go “L” is over-current 1 detection delay time (tVDET3). 
Set V1=3.5V and V2=0V. Increase V2 from 0 V to 0.7 V momentarily (within 10us) The time needed for 
VDO to go “L” is over-current 2 detection delay time (tVDET4). 
Set V1=3.5V and V2=0V. Increase V2 from 0 V to 1.6 V momentarily (within 10 us) The time needed for 
VDO to go “L” is the load short-circuiting detection delay time (tSHORT ). 
Set V1=3.5V and V2=0V. Decrease V2 from 0 V to -1.1 V momentarily (within 10 us) The time needed for 
VCO to go “L” is the abnormal charge current detection delay time. The abnormal charge current  detection 
delay time has the same value as the overcharge detection delay time. 
(11) Measurement Condition 11, Measurement Circuit 2 (Product with 0V battery charge function)
(0V battery charge starting charger voltage ) 
Set V1=V2=0V and decrease V2 gradually. The voltage between VDD and V-  when VCO goes “H” (V- + 
0.1 V or higher) is the 0V battery charge starting charger voltage (V0CHA ). 
(12) Measurement Condition 12, Measurement Circuit 2 (Product with 0V battery charge inhibition 
function) 
(0V battery charge inhibition battery voltage) 
Set V1=0V and V2=-4V. Increase V1 gradually. The voltage between VDD and VSS when VCO 
goes “H”(V- + 0.1 V or higher) is the 0V battery charge inhibition battery voltage (V0INH ).