|
BC68F2130 Datasheet, PDF (14/148 Pages) Holtek Semiconductor Inc – Sub-1GHz RF Transmitter Flash MCU | |||
|
◁ |
BC68F2130/BC68F2140
Sub-1GHz RF Transmitter Flash MCU
LVD/LVR Electrical Characteristics
Ta=25°C
Symbol
Parameter
Test Conditions
VDD
Conditions
Min. Typ. Max. Unit
VLVR
Low Voltage Reset Voltage
â LVR enable, voltage select 1.9V -0.1 1.9 +0.1 V
â LVD enable, voltage select 1.9V -0.1 1.9 +0.1
â LVD enable, voltage select 2.0V
2.0
â LVD enable, voltage select 2.2V
2.2
VLVD
Low Voltage Detection Voltage
â LVD enable, voltage select 2.4V
2.4
V
â LVD enable, voltage select 2.8V -5% 2.8 +5%
â LVD enable, voltage select 2.9V
2.9
â LVD enable, voltage select 3.0V
3.0
â LVD enable, voltage select 3.3V
3.3
IOP
Operating Current
3V LVD enable, LVR enable
â 25 35 μA
tLVDS
LVDO Stable Time
â For LVR enable, LVD off â on â â 15 μs
â For LVR disable, LVD off â on â â 150 μs
tLVR
Minimum Low Voltage Width to Reset â
â
120 240 480 μs
tLVD
Minimum Low Voltage Width to Interrupt â
â
60 120 240 μs
RF Transmitter Electrical Characteristics
Symbol
VDDRF
ISTBRF
fXTAL
fXTALV
fOP
fFSK
fSTEP
RFSK
ROOK
PRF
PRFV
IDDTX
Parameter
Test Conditions
VDD
Conditions
RF Operating Voltage
â
â
RF Power-down Current
â
â
RF Operating XTAL
â
â
RF Operating XTAL Variation
â
â
RF Operating Frequency
â
â
FSK Frequency Deviation
â
â
RF Frequency Step
â
fOP = 315/433MHz
â
fOP = 868/915MHz
Air Data Rate (FSK)
â
â
Air Data Rate (OOK)
â
â
Output Power
3.0V
â
Output Power Variation
2.0V~3.3V PRF = 10dBm (fOP = 433MHz)
2.5V~3.3V PRF = 10dBm (fOP = 433MHz)
3.0V
PRF = 0dBm
(fOP = 315/433MHz)
3.0V
PRF = 10dBm
(fOP = 315/433MHz)
Transmitter Operating
Current
3.0V
3.0V
PRF = 13dBm
(fOP = 315/433MHz)
PRF = 0dBm
(fOP = 868/915MHz)
3.0V
PRF = 10dBm
(fOP = 868/915MHz)
3.0V
PRF = 13dBm
(fOP = 868/915MHz)
Ta=25°C
Min. Typ. Max. Unit
2.0 3.0 3.6 V
ââ 1
μA
12 16 19.2 MHz
-20 â +20 ppm
315 â 915 MHz
10 â 150 kHz
â â 50
Hz
â â 100
0.5 â 100 Kbps
0.5 â 25 Kbps
0 10 13 dBm
ââ 6
dB
ââ 3
dB
â 12 â mA
â 18 â mA
â 25 â mA
â 13 â mA
â 22 â mA
â 28 â mA
Rev. 1.10
14
May 19, 2017
|
▷ |