Quickspecs, Technical specifications – power, Hp elite series 800 g9 desktops pcs – HP 27" EliteOne 870 G9 All-in-One Desktop Computer User Manual
Page 95
QuickSpecs
HP Elite Series 800 G9 Desktops PCs
Technical Specifications
–
Power
Not all configuration components are available in all regions/countries.
c08017769
–
DA 17000
–
Worldwide
–
Version 22
–
August 21, 2022
Page 95
AC Adaptor
Eris+ 200W
Dimensions
6.5 x 3.11 x 1.0 in (16.5 x 7.9 x 2.54 cm)
Weight
530 g (+/- 10 g)
Input
Input Efficiency
Average Efficiency of 25%, 50%, 75%, 100% load condition with 115 Vac /
230 Vac Spec:
88% at 115 Vac and 89 % at 230 Vac
Input Frequency Range
47-63 Hz
Input AC current
Max. 3.0 A at 90 Vac
Output
Output Power
200W
DC Output
19.5V
Hold-up Time
5 ms at 115 Vac input
Output Over Current Protection
< 21.0A
Leakage Current
Shall not exceed 50uA when tested at 250 Vac/50 Hz in a normal operating
condition
AC connector (Ac Inlet)
C14
DC Plug
7.4 mm Barrel Type
Environmental
Design
Operating Temperature
32
o
F to 95
o
F (0
o
to 35
o
C)
Non-operating (storage)
Temperature
-4
o
F to 185
o
F (-20
o
to 85
o
C)
Altitude
0 to 16,400 ft (0 to 5000 m)
Humidity
20% to 95%
Storage Humidity
10% to 95%
EMI and Safety Certifications
*CE Mark - full compliance with LVD and EMC directives
* Worldwide safety standards - IEC60950-1 and/or IEC62368-1 2&3 ed,
EN60950-1 and/or EN62368-1, UL62368-1 , Class I, SELV;
Agency approvals - cULus, CCC, BIS, PSE(J62368), EN55032 Class B, FCC Class
B, CISPR32 Class B, CCC, NOM-001 NYCE, EAEU, Australia
MTBF - over 100,000 hours at 35°C ambient condition
HP EliteOne 840 23.8 in & 870 27 in G9 All-in-One Desktop PC
Wireless Charger General Description
Operating Voltage
12~13V (DC) After QI certificate, this range are optimum voltage.
Nominal Input voltage
12.6V (DC) (The optimum working voltage)
Input Current
Typ. 1.5A (2A max.)
Max Input Power
<24W
Standby Current (No load)
Averrage current=12.5mA Max. (Q/Ping period= 500ms Avg. Power 150mW Max.)
Over Voltage Protection
15V Max.
Over Current Protection
2.1A± 10%