RFM products are now Murata products. DR4100 • • • • Designed for Short-Range Wireless Data Communications Supports up to 115.2 kbps Encoded Data Transmissions 3 V, Low Current Operation plus Sleep Mode Ready to Use OEM Module 433.92 MHz Transmitter Module The DR4100 transmitter module is ideal for short-range wireless data applications where robust operation, small size and low power consumption are required. The DR4100 utilizes Murata’s TX5000 amplifiersequenced hybrid (ASH) architecture to achieve this unique blend of characteristics. The transmitter includes provisions for on-off keyed (OOK) and ASK modulation. The transmitter employs SAW filtering to suppress output harmonics, facilitating compliance with ETSI 300 220 and similar regulations. The DR4100 includes the TX5000 plus all configuration components in a ready-to-use PCB assembly, excellent for prototyping and intermediate volume production runs. Absolute Maximum Ratings Rating Value Units Power Supply and All Input/Output Pins -0.3 to +4.0 V Non-Operating Case Temperature -50 to +100 °C 230 °C Soldering Temperature (10 seconds) Electrical Characteristics, 2.4 kbps On-Off Keyed Characteristic Operating Frequency Sym fO Data Rate Notes Minimum Typical 433.72 Maximum Units 434.12 MHz OOK 19.2 kbps ASK 115.2 Transmitter Performance (OOK @ 2.4 kbps) Peak Input Current, 3 Vdc Supply ITP Peak Output Power PO Turn On/Turn Off Time Power Supply Voltage Range Operating Ambient Temperature 12 mA 0.75 mW tON/tOFF 12/6 µs VCC 2.7 3.5 Vdc TA -20 +65 °C DR4100 Pin Out DR4100 Outline Drawing DR4101 Pin Out RF GND RFIO 14 13 .30 .165 VCC 1 12 CTR0 NC 2 11 CTR1 NC 3 10 GND NC 4 9 VCC TX IN 5 8 NC 6 7 GND GND ©2010-2015 by Murata Electronics N.A., Inc. DR4100 (R) 3/31/15 .80 .20 .10 .70 Page 1 of 2 www.murata.com Pin Desciptions Pin Name 1 VCC 5 TX IN Description The TX IN pin is connected to the transmitter TXMOD pin through a 4.7 K resistor on the circuit board. Additional series resistance will often be required between the modulation source and the TX IN pin, depending on the desired output power and peak modulation voltage (3.3 K typical for a peak modulation voltage of 3 volts). Saturated output power requires about 450 µA of drive current. Peak output power PO for a 3 Vdc supply is approximately: PO = 4.8*((VTXH - 0.9)/(RM + 4.7))2, where PO is in mW, peak modulation voltage VTXH is in volts and external modulation resistor RM is in kilohms This pin must be held low in the receive and sleep modes. Please refer to section 2.9 of the ASH Transceiver Designer's Guide for additional information. 6, 7 GND 8 NC 9 VCC This is the positive supply voltage pin for the module. The operating voltage range is 2.7 to 3.5 Vdc. It is also possible to use Pin 1 as the Vcc input. Please refer to the Pin 1 description above. 10 GND This is the supply voltage return pin. 11 CTR1 CTR1 and CTR0 select the transmit modes. CTR1 high and CTR0 low place the unit in the ASK transmit mode. CTR1 low and CTR0 high place the unit in the OOK transmit mode. CTR1 and CTR0 both low place the unit in the power down (sleep) mode. CTR1 is a high-impedance input (CMOS compatible). An input voltage of 0 to 200 mV is interpreted as a logic low. An input voltage of Vcc - 200 mV or greater is interpreted as a logic high. An input voltage greater than Vcc + 200 mV should not be applied to this pin. This pin must be held at a logic level; it cannot be left unconnected. 12 CTR0 (T/S) “T” =1 for transmission, “S” =0 for sleep mode 13 RFIO RFIO is the RF output pin. A matching circuit for a 50 ohm load (antenna) is implemented on the circuit board between this pin and the transceiver SAW filter transducer. 14 RF GND This pin is the RF ground (return) to be used in conjunction with the RFIO pin. For example, when connecting the module to an external antenna, the coaxial cable ground is connected this pin and the coaxial cable center conductor is connected to RFIO. Application ASK Circuit A p p l ic a t i o n A S K C ir c u i t A Application p p l i c a t i oOOK n O Circuit O K C ir c u it 12 T /S 3 Vdc T /S 11 10 9 12 8 DR4100 1 2 3 8 7 DR4100 14 6 4 9 D R 4000 D R 4000 14 10 13 7 13 11 3 Vdc 1 5 2 3 4 6 5 D a t a In D a ta In 3 .3 k ©2010-2015 by Murata Electronics N.A., Inc. DR4100 (R) 3/31/15 3 .3 k Page 2 of 2 www.murata.com