Ebyte E73-2G4M04S-52832, User Manual

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nRF52832/nRF52810 Wireless Module User Manual of E73 Series Modules
Copyright ©2012–2017, Chengdu Ebyte Electronic Technology Co., Ltd. 4 / 9
1. Technical Parameters
Model IC Size Net weight
Operating
temperature
Operating
humidity
Storage
temperature
E73-2G4M04S-52832 nRF52832 PCB/IPX 17.5 * 28.7 mm 1.8±0.1g -40 ~ 85℃ 10% ~ 90%
E73-2G4M04S-52810 nRF52810 PCB/IPX 17.5 * 28.7 mm 1.8±0.1g -40 ~ 85℃ 10% ~ 90%
1.1 E73-2G4M04S-52832
Parameter Min Typ Max Unit
Transmitting current 78 83 91 mA
Receiving current
14.7 18.5 20.0 mA
Turn-off current 0.4 0.5 0.6 μA
Transmitting power 19 20 21 dBm
Receiving sensitivity -119 -121 -123 dBm
Voltage supply 425 433 525 MHz
Communication level 1.8 3.3 3.6 V
1.2 E73-2G4M04S-52810
Parameter Min Typ Max Unit
Transmitting current 17 18 20 mA
Receiving current
12 13 14 mA
Turn-off current 1 2 3 μA
Transmitting power 3.7 4 4.2 dBm
Receiving sensitivity -94.5 -95 -96 dBm
Voltage supply 2379 2430 2496 MHz
Communication level 1.8 3.3 3.6 V
Parameters Notes

When designing current supply circuit, 30% margin is recommended to be remained so as to ensure long-term stable operation of
the whole module.

The current at the instant of transmitting may be high, but the total energy consumed may be lower due to very short transmitting
time.

When using external antenna, the impedance matching degree at different frequency points between antenna and module may
affect the transmitting current at different levels.

The current consumed when the RF chip is only working at receiving mode is called as receiving current. The tested receiving
current may be higher for some RF chips with communication protocol or when the developers have loaded their own protocol to
the whole module.

The current at pure receiving mode is at mA level. To achieve µA level receiving current, the users need to manage it through
firmware development.

The receiving sensitivity is tested at the speed rate of 1kbps.

The turn-off current is always lower than the current consumed when the power supply source of the whole module is at no-load
status.

Each LRC component has ±0.1% error, and the error will accumulate since multiple LRC components are used in the whole RF
circuit, and the transmitting current will be different at different modules.

The power consumption can be lowered by lowering the transmitting power, but the efficiency of the internal PA will be decreased
by lowering transmitting power due to various reasons.